{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DerivingVia #-}
{-# LANGUAGE ExistentialQuantification #-}
{-# LANGUAGE FlexibleContexts #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTSyntax #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE NamedFieldPuns #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE RecordWildCards #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeFamilies #-}
{-# OPTIONS_GHC -Wno-incomplete-uni-patterns -Wno-unused-matches #-}
#if __GLASGOW_HASKELL__ >= 908
{-# OPTIONS_GHC -Wno-x-partial #-}
#endif
module Control.Monad.IOSimPOR.Internal
( IOSim (..)
, runIOSim
, runSimTraceST
, traceM
, traceSTM
, STM
, STMSim
, setCurrentTime
, unshareClock
, TimeoutException (..)
, EventlogEvent (..)
, EventlogMarker (..)
, IOSimThreadId
, ThreadLabel
, Labelled (..)
, SimTrace
, Trace.Trace (SimPORTrace, TraceMainReturn, TraceMainException, TraceDeadlock)
, SimEvent (..)
, SimResult (..)
, SimEventType (..)
, liftST
, execReadTVar
, controlSimTraceST
, ScheduleControl (..)
, ScheduleMod (..)
) where
import Prelude hiding (read)
import Data.Dynamic
import Data.Foldable (foldlM, traverse_)
import Data.List qualified as List
import Data.List.Trace qualified as Trace
import Data.Map.Strict (Map)
import Data.Map.Strict qualified as Map
import Data.Maybe (mapMaybe)
import Data.Ord
import Data.OrdPSQ (OrdPSQ)
import Data.OrdPSQ qualified as PSQ
import Data.Set (Set)
import Data.Set qualified as Set
import Data.Time (UTCTime (..), fromGregorian)
import Control.Exception (NonTermination (..), assert, throw)
import Control.Monad (join, when)
import Control.Monad.ST.Lazy
import Control.Monad.ST.Lazy.Unsafe (unsafeIOToST, unsafeInterleaveST)
import Data.STRef.Lazy
import Control.Concurrent.Class.MonadSTM.TMVar
import Control.Concurrent.Class.MonadSTM.TVar hiding (TVar)
import Control.Monad.Class.MonadFork (killThread, myThreadId, throwTo)
import Control.Monad.Class.MonadSTM hiding (STM)
import Control.Monad.Class.MonadSTM.Internal (TMVarDefault (TMVar))
import Control.Monad.Class.MonadThrow as MonadThrow
import Control.Monad.Class.MonadTime
import Control.Monad.Class.MonadTimer.SI (TimeoutState (..))
import Control.Monad.IOSim.InternalTypes
import Control.Monad.IOSim.Types hiding (SimEvent (SimEvent), Trace (SimTrace))
import Control.Monad.IOSim.Types (SimEvent)
import Control.Monad.IOSimPOR.Timeout (unsafeTimeout)
import Control.Monad.IOSimPOR.Types
data Thread s a = Thread {
forall s a. Thread s a -> IOSimThreadId
threadId :: !IOSimThreadId,
forall s a. Thread s a -> ThreadControl s a
threadControl :: !(ThreadControl s a),
forall s a. Thread s a -> ThreadStatus
threadStatus :: !ThreadStatus,
forall s a. Thread s a -> MaskingState
threadMasking :: !MaskingState,
forall s a.
Thread s a
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo :: ![(SomeException, Labelled IOSimThreadId, VectorClock)],
forall s a. Thread s a -> ClockId
threadClockId :: !ClockId,
forall s a. Thread s a -> Maybe ThreadLabel
threadLabel :: Maybe ThreadLabel,
forall s a. Thread s a -> Int
threadNextTId :: !Int,
forall s a. Thread s a -> Int
threadStep :: !Int,
forall s a. Thread s a -> VectorClock
threadVClock :: VectorClock,
forall s a. Thread s a -> Effect
threadEffect :: Effect,
forall s a. Thread s a -> Bool
threadRacy :: !Bool
}
deriving Int -> Thread s a -> ShowS
[Thread s a] -> ShowS
Thread s a -> ThreadLabel
(Int -> Thread s a -> ShowS)
-> (Thread s a -> ThreadLabel)
-> ([Thread s a] -> ShowS)
-> Show (Thread s a)
forall a.
(Int -> a -> ShowS)
-> (a -> ThreadLabel) -> ([a] -> ShowS) -> Show a
forall s a. Int -> Thread s a -> ShowS
forall s a. [Thread s a] -> ShowS
forall s a. Thread s a -> ThreadLabel
$cshowsPrec :: forall s a. Int -> Thread s a -> ShowS
showsPrec :: Int -> Thread s a -> ShowS
$cshow :: forall s a. Thread s a -> ThreadLabel
show :: Thread s a -> ThreadLabel
$cshowList :: forall s a. [Thread s a] -> ShowS
showList :: [Thread s a] -> ShowS
Show
isThreadBlocked :: Thread s a -> Bool
isThreadBlocked :: forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
t = case Thread s a -> ThreadStatus
forall s a. Thread s a -> ThreadStatus
threadStatus Thread s a
t of
ThreadBlocked {} -> Bool
True
ThreadStatus
_ -> Bool
False
isThreadDone :: Thread s a -> Bool
isThreadDone :: forall s a. Thread s a -> Bool
isThreadDone Thread s a
t = case Thread s a -> ThreadStatus
forall s a. Thread s a -> ThreadStatus
threadStatus Thread s a
t of
ThreadStatus
ThreadDone -> Bool
True
ThreadStatus
_ -> Bool
False
threadStepId :: Thread s a -> (IOSimThreadId, Int)
threadStepId :: forall s a. Thread s a -> StepId
threadStepId Thread{ IOSimThreadId
threadId :: forall s a. Thread s a -> IOSimThreadId
threadId :: IOSimThreadId
threadId, Int
threadStep :: forall s a. Thread s a -> Int
threadStep :: Int
threadStep } = (IOSimThreadId
threadId, Int
threadStep)
isRacyThreadId :: IOSimThreadId -> Bool
isRacyThreadId :: IOSimThreadId -> Bool
isRacyThreadId (RacyThreadId [Int]
_) = Bool
True
isRacyThreadId IOSimThreadId
_ = Bool
True
isNotRacyThreadId :: IOSimThreadId -> Bool
isNotRacyThreadId :: IOSimThreadId -> Bool
isNotRacyThreadId (ThreadId [Int]
_) = Bool
True
isNotRacyThreadId IOSimThreadId
_ = Bool
False
bottomVClock :: VectorClock
bottomVClock :: VectorClock
bottomVClock = Map IOSimThreadId Int -> VectorClock
VectorClock Map IOSimThreadId Int
forall k a. Map k a
Map.empty
insertVClock :: IOSimThreadId -> Int -> VectorClock -> VectorClock
insertVClock :: IOSimThreadId -> Int -> VectorClock -> VectorClock
insertVClock IOSimThreadId
tid !Int
step (VectorClock Map IOSimThreadId Int
m) = Map IOSimThreadId Int -> VectorClock
VectorClock (IOSimThreadId
-> Int -> Map IOSimThreadId Int -> Map IOSimThreadId Int
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert IOSimThreadId
tid Int
step Map IOSimThreadId Int
m)
leastUpperBoundVClock :: VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock :: VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock (VectorClock Map IOSimThreadId Int
m) (VectorClock Map IOSimThreadId Int
m') =
Map IOSimThreadId Int -> VectorClock
VectorClock ((Int -> Int -> Int)
-> Map IOSimThreadId Int
-> Map IOSimThreadId Int
-> Map IOSimThreadId Int
forall k a. Ord k => (a -> a -> a) -> Map k a -> Map k a -> Map k a
Map.unionWith Int -> Int -> Int
forall a. Ord a => a -> a -> a
max Map IOSimThreadId Int
m Map IOSimThreadId Int
m')
happensBeforeStep :: Step
-> Step
-> Bool
happensBeforeStep :: Step -> Step -> Bool
happensBeforeStep Step
step Step
step' =
Int -> Maybe Int
forall a. a -> Maybe a
Just (Step -> Int
stepStep Step
step)
Maybe Int -> Maybe Int -> Bool
forall a. Ord a => a -> a -> Bool
<= IOSimThreadId -> Map IOSimThreadId Int -> Maybe Int
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup (Step -> IOSimThreadId
stepThreadId Step
step)
(VectorClock -> Map IOSimThreadId Int
getVectorClock (VectorClock -> Map IOSimThreadId Int)
-> VectorClock -> Map IOSimThreadId Int
forall a b. (a -> b) -> a -> b
$ Step -> VectorClock
stepVClock Step
step')
labelledTVarId :: TVar s a -> ST s (Labelled TVarId)
labelledTVarId :: forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar { TVarId
tvarId :: TVarId
tvarId :: forall s a. TVar s a -> TVarId
tvarId, STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel :: forall s a. TVar s a -> STRef s (Maybe ThreadLabel)
tvarLabel } = TVarId -> Maybe ThreadLabel -> Labelled TVarId
forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled TVarId
tvarId (Maybe ThreadLabel -> Labelled TVarId)
-> ST s (Maybe ThreadLabel) -> ST s (Labelled TVarId)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> STRef s (Maybe ThreadLabel) -> ST s (Maybe ThreadLabel)
forall s a. STRef s a -> ST s a
readSTRef STRef s (Maybe ThreadLabel)
tvarLabel
labelledThreads :: Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
labelledThreads :: forall s a.
Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
labelledThreads Map IOSimThreadId (Thread s a)
threadMap =
(Thread s a
-> [Labelled IOSimThreadId] -> [Labelled IOSimThreadId])
-> [Labelled IOSimThreadId]
-> Map IOSimThreadId (Thread s a)
-> [Labelled IOSimThreadId]
forall a b k. (a -> b -> b) -> b -> Map k a -> b
Map.foldr'
(\Thread { IOSimThreadId
threadId :: forall s a. Thread s a -> IOSimThreadId
threadId :: IOSimThreadId
threadId, Maybe ThreadLabel
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel :: Maybe ThreadLabel
threadLabel } ![Labelled IOSimThreadId]
acc -> IOSimThreadId -> Maybe ThreadLabel -> Labelled IOSimThreadId
forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled IOSimThreadId
threadId Maybe ThreadLabel
threadLabel Labelled IOSimThreadId
-> [Labelled IOSimThreadId] -> [Labelled IOSimThreadId]
forall a. a -> [a] -> [a]
: [Labelled IOSimThreadId]
acc)
[] Map IOSimThreadId (Thread s a)
threadMap
data TimerCompletionInfo s =
Timer !(TVar s TimeoutState)
| TimerRegisterDelay !(TVar s Bool)
| TimerThreadDelay !IOSimThreadId !TimeoutId
| TimerTimeout !IOSimThreadId !TimeoutId !(TMVar (IOSim s) IOSimThreadId)
type RunQueue = OrdPSQ (Down IOSimThreadId) (Down IOSimThreadId) ()
type Timeouts s = OrdPSQ TimeoutId Time (TimerCompletionInfo s)
data SimState s a = SimState {
forall s a. SimState s a -> RunQueue
runqueue :: !RunQueue,
forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: !(Map IOSimThreadId (Thread s a)),
forall s a. SimState s a -> Time
curTime :: !Time,
forall s a. SimState s a -> Timeouts s
timers :: !(Timeouts s),
forall s a. SimState s a -> Map ClockId UTCTime
clocks :: !(Map ClockId UTCTime),
forall s a. SimState s a -> TVarId
nextVid :: !TVarId,
forall s a. SimState s a -> TimeoutId
nextTmid :: !TimeoutId,
forall s a. SimState s a -> Races
races :: Races,
forall s a. SimState s a -> ScheduleControl
control :: !ScheduleControl,
forall s a. SimState s a -> ScheduleControl
control0 :: !ScheduleControl,
forall s a. SimState s a -> Maybe Int
perStepTimeLimit :: Maybe Int
}
initialState :: SimState s a
initialState :: forall s a. SimState s a
initialState =
SimState {
runqueue :: RunQueue
runqueue = RunQueue
forall k p v. OrdPSQ k p v
PSQ.empty,
threads :: Map IOSimThreadId (Thread s a)
threads = Map IOSimThreadId (Thread s a)
forall k a. Map k a
Map.empty,
curTime :: Time
curTime = DiffTime -> Time
Time DiffTime
0,
timers :: Timeouts s
timers = Timeouts s
forall k p v. OrdPSQ k p v
PSQ.empty,
clocks :: Map ClockId UTCTime
clocks = ClockId -> UTCTime -> Map ClockId UTCTime
forall k a. k -> a -> Map k a
Map.singleton ([Int] -> ClockId
ClockId []) UTCTime
epoch1970,
nextVid :: TVarId
nextVid = Int -> TVarId
TVarId Int
0,
nextTmid :: TimeoutId
nextTmid = Int -> TimeoutId
TimeoutId Int
0,
races :: Races
races = Races
noRaces,
control :: ScheduleControl
control = ScheduleControl
ControlDefault,
control0 :: ScheduleControl
control0 = ScheduleControl
ControlDefault,
perStepTimeLimit :: Maybe Int
perStepTimeLimit = Maybe Int
forall a. Maybe a
Nothing
}
where
epoch1970 :: UTCTime
epoch1970 = Day -> DiffTime -> UTCTime
UTCTime (Year -> Int -> Int -> Day
fromGregorian Year
1970 Int
1 Int
1) DiffTime
0
invariant :: Maybe (Thread s a) -> SimState s a -> x -> x
invariant :: forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant (Just Thread s a
running) simstate :: SimState s a
simstate@SimState{RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue,Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks} =
Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Bool -> Bool
not (Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
running))
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
running IOSimThreadId -> Map IOSimThreadId (Thread s a) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.notMember` Map IOSimThreadId (Thread s a)
threads)
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Bool -> Bool
not (IOSimThreadId -> Down IOSimThreadId
forall a. a -> Down a
Down (Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
running) Down IOSimThreadId -> RunQueue -> Bool
forall k p v. Ord k => k -> OrdPSQ k p v -> Bool
`PSQ.member` RunQueue
runqueue))
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
running ClockId -> Map ClockId UTCTime -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map ClockId UTCTime
clocks)
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Maybe (Thread s a) -> SimState s a -> x -> x
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant Maybe (Thread s a)
forall a. Maybe a
Nothing SimState s a
simstate
invariant Maybe (Thread s a)
Nothing SimState{RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue,Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks} =
Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert ((Down IOSimThreadId -> Down IOSimThreadId -> () -> Bool -> Bool)
-> Bool -> RunQueue -> Bool
forall k p v a. (k -> p -> v -> a -> a) -> a -> OrdPSQ k p v -> a
PSQ.fold' (\(Down IOSimThreadId
tid) Down IOSimThreadId
_ ()
_ Bool
a -> IOSimThreadId
tid IOSimThreadId -> Map IOSimThreadId (Thread s a) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map IOSimThreadId (Thread s a)
threads Bool -> Bool -> Bool
&& Bool
a) Bool
True RunQueue
runqueue)
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert ([Bool] -> Bool
forall (t :: * -> *). Foldable t => t Bool -> Bool
and [ (Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
t Bool -> Bool -> Bool
|| Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadDone Thread s a
t) Bool -> Bool -> Bool
forall a. Eq a => a -> a -> Bool
== Bool -> Bool
not (IOSimThreadId -> Down IOSimThreadId
forall a. a -> Down a
Down (Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
t) Down IOSimThreadId -> RunQueue -> Bool
forall k p v. Ord k => k -> OrdPSQ k p v -> Bool
`PSQ.member` RunQueue
runqueue)
| Thread s a
t <- Map IOSimThreadId (Thread s a) -> [Thread s a]
forall k a. Map k a -> [a]
Map.elems Map IOSimThreadId (Thread s a)
threads ])
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert ([Bool] -> Bool
forall (t :: * -> *). Foldable t => t Bool -> Bool
and (((Down IOSimThreadId, Down IOSimThreadId, ())
-> (Down IOSimThreadId, Down IOSimThreadId, ()) -> Bool)
-> [(Down IOSimThreadId, Down IOSimThreadId, ())]
-> [(Down IOSimThreadId, Down IOSimThreadId, ())]
-> [Bool]
forall a b c. (a -> b -> c) -> [a] -> [b] -> [c]
zipWith (\(Down IOSimThreadId
tid, Down IOSimThreadId
_, ()
_) (Down IOSimThreadId
tid', Down IOSimThreadId
_, ()
_) -> IOSimThreadId
tid IOSimThreadId -> IOSimThreadId -> Bool
forall a. Ord a => a -> a -> Bool
> IOSimThreadId
tid')
(RunQueue -> [(Down IOSimThreadId, Down IOSimThreadId, ())]
forall k p v. OrdPSQ k p v -> [(k, p, v)]
PSQ.toList RunQueue
runqueue)
(Int
-> [(Down IOSimThreadId, Down IOSimThreadId, ())]
-> [(Down IOSimThreadId, Down IOSimThreadId, ())]
forall a. Int -> [a] -> [a]
drop Int
1 (RunQueue -> [(Down IOSimThreadId, Down IOSimThreadId, ())]
forall k p v. OrdPSQ k p v -> [(k, p, v)]
PSQ.toList RunQueue
runqueue))))
(x -> x) -> (x -> x) -> x -> x
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool -> x -> x
forall a. (?callStack::CallStack) => Bool -> a -> a
assert ([Bool] -> Bool
forall (t :: * -> *). Foldable t => t Bool -> Bool
and [ Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
t ClockId -> Map ClockId UTCTime -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map ClockId UTCTime
clocks
| Thread s a
t <- Map IOSimThreadId (Thread s a) -> [Thread s a]
forall k a. Map k a -> [a]
Map.elems Map IOSimThreadId (Thread s a)
threads ])
timeSinceEpoch :: Time -> NominalDiffTime
timeSinceEpoch :: Time -> NominalDiffTime
timeSinceEpoch (Time DiffTime
t) = Rational -> NominalDiffTime
forall a. Fractional a => Rational -> a
fromRational (DiffTime -> Rational
forall a. Real a => a -> Rational
toRational DiffTime
t)
insertThread :: Thread s a -> RunQueue -> RunQueue
insertThread :: forall s a. Thread s a -> RunQueue -> RunQueue
insertThread Thread { IOSimThreadId
threadId :: forall s a. Thread s a -> IOSimThreadId
threadId :: IOSimThreadId
threadId } = Down IOSimThreadId
-> Down IOSimThreadId -> () -> RunQueue -> RunQueue
forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert (IOSimThreadId -> Down IOSimThreadId
forall a. a -> Down a
Down IOSimThreadId
threadId) (IOSimThreadId -> Down IOSimThreadId
forall a. a -> Down a
Down IOSimThreadId
threadId) ()
schedule :: forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule :: forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule thread :: Thread s a
thread@Thread{
threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
action ControlStack s b a
ctl,
threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock,
threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
effect
}
simstate :: SimState s a
simstate@SimState {
RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue,
Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,
Timeouts s
timers :: forall s a. SimState s a -> Timeouts s
timers :: Timeouts s
timers,
Map ClockId UTCTime
clocks :: forall s a. SimState s a -> Map ClockId UTCTime
clocks :: Map ClockId UTCTime
clocks,
TVarId
nextVid :: forall s a. SimState s a -> TVarId
nextVid :: TVarId
nextVid, TimeoutId
nextTmid :: forall s a. SimState s a -> TimeoutId
nextTmid :: TimeoutId
nextTmid,
curTime :: forall s a. SimState s a -> Time
curTime = Time
time,
ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control,
Maybe Int
perStepTimeLimit :: forall s a. SimState s a -> Maybe Int
perStepTimeLimit :: Maybe Int
perStepTimeLimit
}
| StepId -> ScheduleControl -> Bool
controlTargets (IOSimThreadId
tid,Int
tstep) ScheduleControl
control =
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (ScheduleControl -> SimEventType
EventFollowControl ScheduleControl
control) (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread SimState s a
simstate{ control = followControl control }
| Bool -> Bool
not (Bool -> Bool) -> Bool -> Bool
forall a b. (a -> b) -> a -> b
$ StepId -> ScheduleControl -> Bool
controlFollows (IOSimThreadId
tid,Int
tstep) ScheduleControl
control =
( Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (StepId -> ScheduleControl -> SimEventType
EventAwaitControl (IOSimThreadId
tid,Int
tstep) ScheduleControl
control)
(SimTrace a -> SimTrace a)
-> (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Sleep)
) (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Sleep Thread s a
thread SimState s a
simstate
| Bool
otherwise =
Maybe (Thread s a)
-> SimState s a -> ST s (SimTrace a) -> ST s (SimTrace a)
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant (Thread s a -> Maybe (Thread s a)
forall a. a -> Maybe a
Just Thread s a
thread) SimState s a
simstate (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
case ScheduleControl
control of
ControlFollow (StepId
s:[StepId]
_) [ScheduleMod]
_
-> (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> ST s a -> ST s b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (StepId -> SimEventType
EventPerformAction (IOSimThreadId
tid,Int
tstep)))
ScheduleControl
_ -> ST s (SimTrace a) -> ST s (SimTrace a)
forall a. a -> a
id
(ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
case (SimA s b -> Maybe (SimA s b))
-> (Int -> SimA s b -> Maybe (SimA s b))
-> Maybe Int
-> SimA s b
-> Maybe (SimA s b)
forall b a. b -> (a -> b) -> Maybe a -> b
maybe SimA s b -> Maybe (SimA s b)
forall a. a -> Maybe a
Just Int -> SimA s b -> Maybe (SimA s b)
forall a. Int -> a -> Maybe a
unsafeTimeout Maybe Int
perStepTimeLimit SimA s b
action of
Maybe (SimA s b)
Nothing -> SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return SimTrace a
forall a. SimTrace a
TraceLoop
Just SimA s b
_ -> case SimA s b
action of
Return b
x -> case ControlStack s b a
ctl of
ControlStack s b a
MainFrame ->
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl SimEventType
EventThreadFinished
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimState s a -> SimTrace a -> SimTrace a
forall s a. SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound SimState s a
simstate
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> Labelled IOSimThreadId
-> a
-> [Labelled IOSimThreadId]
-> SimTrace a
forall a.
Time
-> Labelled IOSimThreadId
-> a
-> [Labelled IOSimThreadId]
-> SimTrace a
TraceMainReturn Time
time (IOSimThreadId -> Maybe ThreadLabel -> Labelled IOSimThreadId
forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled IOSimThreadId
tid Maybe ThreadLabel
tlbl) a
b
x
( Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
forall s a.
Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
labelledThreads
(Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId])
-> (Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a))
-> Map IOSimThreadId (Thread s a)
-> [Labelled IOSimThreadId]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (Thread s a -> Bool)
-> Map IOSimThreadId (Thread s a) -> Map IOSimThreadId (Thread s a)
forall a k. (a -> Bool) -> Map k a -> Map k a
Map.filter (Bool -> Bool
not (Bool -> Bool) -> (Thread s a -> Bool) -> Thread s a -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadDone)
(Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId])
-> Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
forall a b. (a -> b) -> a -> b
$ Map IOSimThreadId (Thread s a)
threads
)
ControlStack s b a
ForkFrame -> do
let thread' :: Thread s a
thread' = Thread s a
thread
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Terminated Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl SimEventType
EventThreadFinished
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Terminated)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
MaskFrame b -> SimA s c
k MaskingState
maskst' ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k x) ctl'
, threadMasking = maskst'
}
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Interruptable)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
CatchFrame e -> SimA s b
_handler b -> SimA s c
k ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k x) ctl' }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
TimeoutFrame TimeoutId
tmid TMVar (IOSim s) IOSimThreadId
lock Maybe b -> SimA s c
k ControlStack s c a
ctl' -> do
Bool
v <- TMVar (IOSim s) IOSimThreadId -> IOSimThreadId -> ST s Bool
forall s a. TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar TMVar (IOSim s) IOSimThreadId
lock IOSimThreadId
forall a. (?callStack::CallStack) => a
undefined
let
threadAction :: IOSim s ()
threadAction :: IOSim s ()
threadAction =
if Bool
v then TimeoutId -> IOSim s ()
forall s. TimeoutId -> IOSim s ()
unsafeUnregisterTimeout TimeoutId
tmid
else STM (IOSim s) IOSimThreadId -> IOSim s IOSimThreadId
forall a. (?callStack::CallStack) => STM (IOSim s) a -> IOSim s a
forall (m :: * -> *) a.
(MonadSTM m, ?callStack::CallStack) =>
STM m a -> m a
atomically (TMVar (IOSim s) IOSimThreadId -> STM (IOSim s) IOSimThreadId
forall a. TMVar (IOSim s) a -> STM (IOSim s) a
forall (m :: * -> *) a. MonadSTM m => TMVar m a -> STM m a
takeTMVar TMVar (IOSim s) IOSimThreadId
lock) IOSim s IOSimThreadId
-> (IOSimThreadId -> IOSim s ()) -> IOSim s ()
forall a b. IOSim s a -> (a -> IOSim s b) -> IOSim s b
forall (m :: * -> *) a b. Monad m => m a -> (a -> m b) -> m b
>>= ThreadId (IOSim s) -> IOSim s ()
IOSimThreadId -> IOSim s ()
forall (m :: * -> *). MonadFork m => ThreadId m -> m ()
killThread
thread' :: Thread s a
thread' =
Thread s a
thread { threadControl =
ThreadControl (case threadAction of
IOSim forall r. (() -> SimA s r) -> SimA s r
k' -> (() -> SimA s c) -> SimA s c
forall r. (() -> SimA s r) -> SimA s r
k' (\() -> Maybe b -> SimA s c
k (b -> Maybe b
forall a. a -> Maybe a
Just b
x)))
ctl'
}
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
DelayFrame TimeoutId
tmid SimA s c
k ControlStack s c a
ctl' -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl' }
timers' :: Timeouts s
timers' = TimeoutId -> Timeouts s -> Timeouts s
forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers = timers' }
Throw SomeException
e -> case SomeException
-> Thread s a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
unwindControlStack SomeException
e Thread s a
thread Timeouts s
timers of
(Right thread0 :: Thread s a
thread0@Thread { threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst' }, Timeouts s
timers'') -> do
let (Thread s a
thread', Effect
eff) = Thread s a -> (Thread s a, Effect)
forall s a. Thread s a -> (Thread s a, Effect)
stepThread Thread s a
thread0
control' :: ScheduleControl
control' = StepId -> ScheduleControl -> ScheduleControl
advanceControl (Thread s a -> StepId
forall s a. Thread s a -> StepId
threadStepId Thread s a
thread0) ScheduleControl
control
races' :: Races
races' = Thread s a -> SimState s a -> Races
forall s a. Thread s a -> SimState s a -> Races
updateRaces Thread s a
thread0 SimState s a
simstate
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate{ races = races',
control = control',
timers = timers'' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst') (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
eff) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Races -> SimEventType
EventRaces Races
races')
SimTrace a
trace)
(Left Bool
isMain, Timeouts s
timers'')
| Bool
isMain -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadStatus = ThreadDone }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThreadUnhandled SomeException
e) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
SimState s a -> SimTrace a -> SimTrace a
forall s a. SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound SimState s a
simstate { threads = Map.insert tid thread' threads } (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> Labelled IOSimThreadId
-> SomeException
-> [Labelled IOSimThreadId]
-> SimTrace a
forall a.
Time
-> Labelled IOSimThreadId
-> SomeException
-> [Labelled IOSimThreadId]
-> SimTrace a
TraceMainException Time
time (IOSimThreadId -> Maybe ThreadLabel -> Labelled IOSimThreadId
forall a. a -> Maybe ThreadLabel -> Labelled a
Labelled IOSimThreadId
tid Maybe ThreadLabel
tlbl) SomeException
e (Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
forall s a.
Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
labelledThreads Map IOSimThreadId (Thread s a)
threads))
| Bool
otherwise -> do
let terminated :: Deschedule
terminated = Deschedule
Terminated
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
terminated Thread s a
thread SimState s a
simstate { timers = timers'' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThrow SomeException
e)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> SimEventType
EventThreadUnhandled SomeException
e)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
terminated)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
Catch SimA s a1
action' e -> SimA s a1
handler a1 -> SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl action'
(CatchFrame handler k ctl)
}
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Evaluate a1
expr a1 -> SimA s b
k -> do
Either SomeException a1
mbWHNF <- IO (Either SomeException a1) -> ST s (Either SomeException a1)
forall a s. IO a -> ST s a
unsafeIOToST (IO (Either SomeException a1) -> ST s (Either SomeException a1))
-> IO (Either SomeException a1) -> ST s (Either SomeException a1)
forall a b. (a -> b) -> a -> b
$ IO a1 -> IO (Either SomeException a1)
forall e a. Exception e => IO a -> IO (Either e a)
forall (m :: * -> *) e a.
(MonadCatch m, Exception e) =>
m a -> m (Either e a)
try (IO a1 -> IO (Either SomeException a1))
-> IO a1 -> IO (Either SomeException a1)
forall a b. (a -> b) -> a -> b
$ a1 -> IO a1
forall a. a -> IO a
forall (m :: * -> *) a. MonadEvaluate m => a -> m a
evaluate a1
expr
case Either SomeException a1
mbWHNF of
Left SomeException
e -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Throw e) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Right a1
whnf -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k whnf) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Say ThreadLabel
msg SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (ThreadLabel -> SimEventType
EventSay ThreadLabel
msg) SimTrace a
trace)
Output Dynamic
x SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Dynamic -> SimEventType
EventLog Dynamic
x) SimTrace a
trace)
LiftST ST s a1
st a1 -> SimA s b
k -> do
a1
x <- ST s a1 -> ST s a1
forall s a. ST s a -> ST s a
strictToLazyST ST s a1
st
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k x) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
GetMonoTime Time -> SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k time) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
GetWallTime UTCTime -> SimA s b
k -> do
let clockid :: ClockId
clockid = Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks Map ClockId UTCTime -> ClockId -> UTCTime
forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
walltime :: UTCTime
walltime = Time -> NominalDiffTime
timeSinceEpoch Time
time NominalDiffTime -> UTCTime -> UTCTime
`addUTCTime` UTCTime
clockoff
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k walltime) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SetWallTime UTCTime
walltime' SimA s b
k -> do
let clockid :: ClockId
clockid = Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks Map ClockId UTCTime -> ClockId -> UTCTime
forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
walltime :: UTCTime
walltime = Time -> NominalDiffTime
timeSinceEpoch Time
time NominalDiffTime -> UTCTime -> UTCTime
`addUTCTime` UTCTime
clockoff
clockoff' :: UTCTime
clockoff' = NominalDiffTime -> UTCTime -> UTCTime
addUTCTime (UTCTime -> UTCTime -> NominalDiffTime
diffUTCTime UTCTime
walltime' UTCTime
walltime) UTCTime
clockoff
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
simstate' :: SimState s a
simstate' = SimState s a
simstate { clocks = Map.insert clockid clockoff' clocks }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
UnshareClock SimA s b
k -> do
let clockid :: ClockId
clockid = Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
clockoff :: UTCTime
clockoff = Map ClockId UTCTime
clocks Map ClockId UTCTime -> ClockId -> UTCTime
forall k a. Ord k => Map k a -> k -> a
Map.! ClockId
clockid
clockid' :: ClockId
clockid' = let ThreadId [Int]
i = IOSimThreadId
tid in [Int] -> ClockId
ClockId [Int]
i
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl
, threadClockId = clockid' }
simstate' :: SimState s a
simstate' = SimState s a
simstate { clocks = Map.insert clockid' clockoff clocks }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
StartTimeout DiffTime
d SimA s a1
_ Maybe a1 -> SimA s b
_ | DiffTime
d DiffTime -> DiffTime -> Bool
forall a. Ord a => a -> a -> Bool
<= DiffTime
0 ->
ThreadLabel -> ST s (SimTrace a)
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"schedule: StartTimeout: Impossible happened"
StartTimeout DiffTime
d SimA s a1
action' Maybe a1 -> SimA s b
k -> do
TMVarDefault (IOSim s) IOSimThreadId
lock <- TVar (IOSim s) (Maybe IOSimThreadId)
-> TMVarDefault (IOSim s) IOSimThreadId
TVar s (Maybe IOSimThreadId)
-> TMVarDefault (IOSim s) IOSimThreadId
forall (m :: * -> *) a. TVar m (Maybe a) -> TMVarDefault m a
TMVar (TVar s (Maybe IOSimThreadId)
-> TMVarDefault (IOSim s) IOSimThreadId)
-> ST s (TVar s (Maybe IOSimThreadId))
-> ST s (TMVarDefault (IOSim s) IOSimThreadId)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> TVarId
-> Maybe ThreadLabel
-> Maybe IOSimThreadId
-> ST s (TVar s (Maybe IOSimThreadId))
forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid (ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just (ThreadLabel -> Maybe ThreadLabel)
-> ThreadLabel -> Maybe ThreadLabel
forall a b. (a -> b) -> a -> b
$! ThreadLabel
"lock-" ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ TimeoutId -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show TimeoutId
nextTmid) Maybe IOSimThreadId
forall a. Maybe a
Nothing
let expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
timers' :: Timeouts s
timers' = TimeoutId
-> Time -> TimerCompletionInfo s -> Timeouts s -> Timeouts s
forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (IOSimThreadId
-> TimeoutId
-> TMVar (IOSim s) IOSimThreadId
-> TimerCompletionInfo s
forall s.
IOSimThreadId
-> TimeoutId
-> TMVar (IOSim s) IOSimThreadId
-> TimerCompletionInfo s
TimerTimeout IOSimThreadId
tid TimeoutId
nextTmid TMVarDefault (IOSim s) IOSimThreadId
TMVar (IOSim s) IOSimThreadId
lock) Timeouts s
timers
thread' :: Thread s a
thread' = Thread s a
thread { threadControl =
ThreadControl action'
(TimeoutFrame nextTmid lock k ctl)
}
SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate { timers = timers'
, nextTmid = succ nextTmid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> IOSimThreadId -> Time -> SimEventType
EventTimeoutCreated TimeoutId
nextTmid IOSimThreadId
tid Time
expiry) SimTrace a
trace)
UnregisterTimeout TimeoutId
tmid SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers = PSQ.delete tmid timers }
RegisterDelay DiffTime
d TVar s Bool -> SimA s b
k | DiffTime
d DiffTime -> DiffTime -> Bool
forall a. Ord a => a -> a -> Bool
< DiffTime
0 -> do
TVar s Bool
tvar <- TVarId -> Maybe ThreadLabel -> Bool -> ST s (TVar s Bool)
forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just (ThreadLabel -> Maybe ThreadLabel)
-> ThreadLabel -> Maybe ThreadLabel
forall a b. (a -> b) -> a -> b
$! ThreadLabel
"<<timeout " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
Bool
True
STRef s VectorClock -> (VectorClock -> VectorClock) -> ST s ()
forall s a. STRef s a -> (a -> a) -> ST s ()
modifySTRef (TVar s Bool -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s Bool
tvar) (VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
vClock)
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k tvar) ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { nextVid = succ nextVid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventRegisterDelayCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventRegisterDelayFired TimeoutId
nextTmid) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
RegisterDelay DiffTime
d TVar s Bool -> SimA s b
k -> do
TVar s Bool
tvar <- TVarId -> Maybe ThreadLabel -> Bool -> ST s (TVar s Bool)
forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just (ThreadLabel -> Maybe ThreadLabel)
-> ThreadLabel -> Maybe ThreadLabel
forall a b. (a -> b) -> a -> b
$! ThreadLabel
"<<timeout " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
Bool
False
STRef s VectorClock -> (VectorClock -> VectorClock) -> ST s ()
forall s a. STRef s a -> (a -> a) -> ST s ()
modifySTRef (TVar s Bool -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s Bool
tvar) (VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
vClock)
let !expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
!timers' :: Timeouts s
timers' = TimeoutId
-> Time -> TimerCompletionInfo s -> Timeouts s -> Timeouts s
forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (TVar s Bool -> TimerCompletionInfo s
forall s. TVar s Bool -> TimerCompletionInfo s
TimerRegisterDelay TVar s Bool
tvar) Timeouts s
timers
!thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k tvar) ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers = timers'
, nextVid = succ nextVid
, nextTmid = succ nextTmid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl
(TimeoutId -> TVarId -> Time -> SimEventType
EventRegisterDelayCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) SimTrace a
trace)
ThreadDelay DiffTime
d SimA s b
k | DiffTime
d DiffTime -> DiffTime -> Bool
forall a. Ord a => a -> a -> Bool
< DiffTime
0 -> do
let expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Return ()) (DelayFrame nextTmid k ctl) }
simstate' :: SimState s a
simstate' = SimState s a
simstate { nextTmid = succ nextTmid }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate'
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> Time -> SimEventType
EventThreadDelay TimeoutId
nextTmid Time
expiry) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventThreadDelayFired TimeoutId
nextTmid) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
ThreadDelay DiffTime
d SimA s b
k -> do
let expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
timers' :: Timeouts s
timers' = TimeoutId
-> Time -> TimerCompletionInfo s -> Timeouts s -> Timeouts s
forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (IOSimThreadId -> TimeoutId -> TimerCompletionInfo s
forall s. IOSimThreadId -> TimeoutId -> TimerCompletionInfo s
TimerThreadDelay IOSimThreadId
tid TimeoutId
nextTmid) Timeouts s
timers
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Return ()) (DelayFrame nextTmid k ctl) }
SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnDelay) Thread s a
thread'
SimState s a
simstate { timers = timers',
nextTmid = succ nextTmid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> Time -> SimEventType
EventThreadDelay TimeoutId
nextTmid Time
expiry) SimTrace a
trace)
NewTimeout DiffTime
d Timeout s -> SimA s b
k | DiffTime
d DiffTime -> DiffTime -> Bool
forall a. Ord a => a -> a -> Bool
< DiffTime
0 -> do
let t :: Timeout s
t = TimeoutId -> Timeout s
forall s. TimeoutId -> Timeout s
NegativeTimeout TimeoutId
nextTmid
expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k t) ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { nextTmid = succ nextTmid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventTimerCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventTimerCancelled TimeoutId
nextTmid) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
SimTrace a
trace)
NewTimeout DiffTime
d Timeout s -> SimA s b
k -> do
TVar s TimeoutState
tvar <- TVarId
-> Maybe ThreadLabel -> TimeoutState -> ST s (TVar s TimeoutState)
forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid
(ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just (ThreadLabel -> Maybe ThreadLabel)
-> ThreadLabel -> Maybe ThreadLabel
forall a b. (a -> b) -> a -> b
$! ThreadLabel
"<<timeout-state " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show (TimeoutId -> Int
unTimeoutId TimeoutId
nextTmid) ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
">>")
TimeoutState
TimeoutPending
STRef s VectorClock -> (VectorClock -> VectorClock) -> ST s ()
forall s a. STRef s a -> (a -> a) -> ST s ()
modifySTRef (TVar s TimeoutState -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s TimeoutState
tvar) (VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
vClock)
let expiry :: Time
expiry = DiffTime
d DiffTime -> Time -> Time
`addTime` Time
time
t :: Timeout s
t = TVar s TimeoutState -> TimeoutId -> Timeout s
forall s. TVar s TimeoutState -> TimeoutId -> Timeout s
Timeout TVar s TimeoutState
tvar TimeoutId
nextTmid
timers' :: Timeouts s
timers' = TimeoutId
-> Time -> TimerCompletionInfo s -> Timeouts s -> Timeouts s
forall k p v.
(Ord k, Ord p) =>
k -> p -> v -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.insert TimeoutId
nextTmid Time
expiry (TVar s TimeoutState -> TimerCompletionInfo s
forall s. TVar s TimeoutState -> TimerCompletionInfo s
Timer TVar s TimeoutState
tvar) Timeouts s
timers
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k t) ctl }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { timers = timers'
, nextVid = succ (succ nextVid)
, nextTmid = succ nextTmid }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> TVarId -> Time -> SimEventType
EventTimerCreated TimeoutId
nextTmid TVarId
nextVid Time
expiry) SimTrace a
trace)
CancelTimeout (Timeout TVar s TimeoutState
tvar TimeoutId
tmid) SimA s b
k -> do
let timers' :: Timeouts s
timers' = TimeoutId -> Timeouts s -> Timeouts s
forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
[SomeTVar s]
written <- StmA s () -> ST s [SomeTVar s]
forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' (STM s () -> StmA s ()
forall s a. STM s a -> StmA s a
runSTM (STM s () -> StmA s ()) -> STM s () -> StmA s ()
forall a b. (a -> b) -> a -> b
$ TVar (IOSim s) TimeoutState -> TimeoutState -> STM (IOSim s) ()
forall a. TVar (IOSim s) a -> a -> STM (IOSim s) ()
forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar (IOSim s) TimeoutState
TVar s TimeoutState
tvar TimeoutState
TimeoutCancelled)
([IOSimThreadId]
wakeup, Map IOSimThreadId (Set (Labelled TVarId))
wokeby) <- [SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
forall s.
[SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
(SomeTVar s -> ST s ()) -> [SomeTVar s] -> ST s ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
var) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
var) [SomeTVar s]
written
let effect' :: Effect
effect' = Effect
effect
Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [SomeTVar s] -> Effect
forall s. [SomeTVar s] -> Effect
writeEffects [SomeTVar s]
written
Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [IOSimThreadId] -> Effect
wakeupEffects [IOSimThreadId]
wakeup
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl
, threadEffect = effect'
}
([IOSimThreadId]
unblocked,
SimState s a
simstate') = Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
False VectorClock
vClock [IOSimThreadId]
wakeup SimState s a
simstate
STRef s VectorClock -> (VectorClock -> VectorClock) -> ST s ()
forall s a. STRef s a -> (a -> a) -> ST s ()
modifySTRef (TVar s TimeoutState -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s TimeoutState
tvar) (VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
vClock)
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate' { timers = timers' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (TimeoutId -> SimEventType
EventTimerCancelled TimeoutId
tmid)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, IOSimThreadId
tid', (-Int
1), Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids)
| IOSimThreadId
tid' <- [IOSimThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids = Set (Labelled TVarId) -> [Labelled TVarId]
forall a. Set a -> [a]
Set.toList (Set (Labelled TVarId) -> [Labelled TVarId])
-> Maybe (Set (Labelled TVarId)) -> Maybe [Labelled TVarId]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> IOSimThreadId
-> Map IOSimThreadId (Set (Labelled TVarId))
-> Maybe (Set (Labelled TVarId))
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid' Map IOSimThreadId (Set (Labelled TVarId))
wokeby ]
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Yield)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
CancelTimeout (NegativeTimeout TimeoutId
_tmid) SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Fork IOSim s ()
a IOSimThreadId -> SimA s b
k -> do
let nextTId :: Int
nextTId = Thread s a -> Int
forall s a. Thread s a -> Int
threadNextTId Thread s a
thread
tid' :: IOSimThreadId
tid' | Thread s a -> Bool
forall s a. Thread s a -> Bool
threadRacy Thread s a
thread = IOSimThreadId -> IOSimThreadId
setRacyThread (IOSimThreadId -> IOSimThreadId) -> IOSimThreadId -> IOSimThreadId
forall a b. (a -> b) -> a -> b
$ IOSimThreadId -> Int -> IOSimThreadId
childThreadId IOSimThreadId
tid Int
nextTId
| Bool
otherwise = IOSimThreadId -> Int -> IOSimThreadId
childThreadId IOSimThreadId
tid Int
nextTId
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k tid') ctl,
threadNextTId = nextTId + 1,
threadEffect = effect
<> forkEffect tid'
}
thread'' :: Thread s a
thread'' = Thread { threadId :: IOSimThreadId
threadId = IOSimThreadId
tid'
, threadControl :: ThreadControl s a
threadControl = SimA s () -> ControlStack s () a -> ThreadControl s a
forall s b a. SimA s b -> ControlStack s b a -> ThreadControl s a
ThreadControl (IOSim s () -> SimA s ()
forall s a. IOSim s a -> SimA s a
runIOSim IOSim s ()
a)
ControlStack s () a
forall s a. ControlStack s () a
ForkFrame
, threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning
, threadMasking :: MaskingState
threadMasking = Thread s a -> MaskingState
forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread
, threadThrowTo :: [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo = []
, threadClockId :: ClockId
threadClockId = Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
thread
, threadLabel :: Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
forall a. Maybe a
Nothing
, threadNextTId :: Int
threadNextTId = Int
1
, threadStep :: Int
threadStep = Int
0
, threadVClock :: VectorClock
threadVClock = IOSimThreadId -> Int -> VectorClock -> VectorClock
insertVClock IOSimThreadId
tid' Int
0
(VectorClock -> VectorClock) -> VectorClock -> VectorClock
forall a b. (a -> b) -> a -> b
$ VectorClock
vClock
, threadEffect :: Effect
threadEffect = Effect
forall a. Monoid a => a
mempty
, threadRacy :: Bool
threadRacy = Thread s a -> Bool
forall s a. Thread s a -> Bool
threadRacy Thread s a
thread
}
threads' :: Map IOSimThreadId (Thread s a)
threads' = IOSimThreadId
-> Thread s a
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert IOSimThreadId
tid' Thread s a
thread'' Map IOSimThreadId (Thread s a)
threads
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread'
SimState s a
simstate { runqueue = insertThread thread'' runqueue
, threads = threads' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (IOSimThreadId -> SimEventType
EventThreadForked IOSimThreadId
tid')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Yield)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
Atomically STM s a1
a a1 -> SimA s b
k -> Time
-> IOSimThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a1
-> (StmTxResult s a1 -> ST s (SimTrace a))
-> ST s (SimTrace a)
forall s a c.
Time
-> IOSimThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically Time
time IOSimThreadId
tid Maybe ThreadLabel
tlbl TVarId
nextVid (STM s a1 -> StmA s a1
forall s a. STM s a -> StmA s a
runSTM STM s a1
a) ((StmTxResult s a1 -> ST s (SimTrace a)) -> ST s (SimTrace a))
-> (StmTxResult s a1 -> ST s (SimTrace a)) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ \StmTxResult s a1
res ->
case StmTxResult s a1
res of
StmTxCommitted a1
x [SomeTVar s]
written [SomeTVar s]
read [SomeTVar s]
created
[Dynamic]
tvarDynamicTraces [ThreadLabel]
tvarStringTraces TVarId
nextVid' -> do
([IOSimThreadId]
wakeup, Map IOSimThreadId (Set (Labelled TVarId))
wokeby) <- [SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
forall s.
[SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
(SomeTVar s -> ST s ()) -> [SomeTVar s] -> ST s ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
tvar) [SomeTVar s]
written
VectorClock
vClockRead <- [SomeTVar s] -> ST s VectorClock
forall s. [SomeTVar s] -> ST s VectorClock
leastUpperBoundTVarVClocks [SomeTVar s]
read
let vClock' :: VectorClock
vClock' = VectorClock
vClock VectorClock -> VectorClock -> VectorClock
`leastUpperBoundVClock` VectorClock
vClockRead
effect' :: Effect
effect' = Effect
effect
Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [SomeTVar s] -> Effect
forall s. [SomeTVar s] -> Effect
readEffects [SomeTVar s]
read
Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [SomeTVar s] -> Effect
forall s. [SomeTVar s] -> Effect
writeEffects [SomeTVar s]
written
Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [IOSimThreadId] -> Effect
wakeupEffects [IOSimThreadId]
unblocked
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k x) ctl,
threadVClock = vClock',
threadEffect = effect' }
([IOSimThreadId]
unblocked,
SimState s a
simstate') = Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
True VectorClock
vClock' [IOSimThreadId]
wakeup SimState s a
simstate
[ST s ()] -> ST s ()
forall (t :: * -> *) (m :: * -> *) a.
(Foldable t, Monad m) =>
t (m a) -> m ()
sequence_ [ STRef s VectorClock -> (VectorClock -> VectorClock) -> ST s ()
forall s a. STRef s a -> (a -> a) -> ST s ()
modifySTRef (TVar s a -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s a
r) (VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
vClock')
| SomeTVar TVar s a
r <- [SomeTVar s]
created [SomeTVar s] -> [SomeTVar s] -> [SomeTVar s]
forall a. [a] -> [a] -> [a]
++ [SomeTVar s]
written ]
[Labelled TVarId]
written' <- (SomeTVar s -> ST s (Labelled TVarId))
-> [SomeTVar s] -> ST s [Labelled TVarId]
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> [a] -> f [b]
traverse (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s (Labelled TVarId)
forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
written
[Labelled TVarId]
created' <- (SomeTVar s -> ST s (Labelled TVarId))
-> [SomeTVar s] -> ST s [Labelled TVarId]
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> [a] -> f [b]
traverse (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s (Labelled TVarId)
forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
created
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate' { nextVid = nextVid' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl ([Labelled TVarId]
-> [Labelled TVarId] -> Maybe Effect -> SimEventType
EventTxCommitted [Labelled TVarId]
written' [Labelled TVarId]
created' (Effect -> Maybe Effect
forall a. a -> Maybe a
Just Effect
effect')) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, IOSimThreadId
tid', (-Int
1), Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids')
| IOSimThreadId
tid' <- [IOSimThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids' = Set (Labelled TVarId) -> [Labelled TVarId]
forall a. Set a -> [a]
Set.toList (Set (Labelled TVarId) -> [Labelled TVarId])
-> Maybe (Set (Labelled TVarId)) -> Maybe [Labelled TVarId]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> IOSimThreadId
-> Map IOSimThreadId (Set (Labelled TVarId))
-> Maybe (Set (Labelled TVarId))
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid' Map IOSimThreadId (Set (Labelled TVarId))
wokeby ] (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, IOSimThreadId
tid, Int
tstep, Maybe ThreadLabel
tlbl, Dynamic -> SimEventType
EventLog Dynamic
tr)
| Dynamic
tr <- [Dynamic]
tvarDynamicTraces
] (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, IOSimThreadId
tid, Int
tstep, Maybe ThreadLabel
tlbl, ThreadLabel -> SimEventType
EventSay ThreadLabel
str)
| ThreadLabel
str <- [ThreadLabel]
tvarStringTraces
] (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl ([IOSimThreadId] -> SimEventType
EventUnblocked [IOSimThreadId]
unblocked) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Yield) (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
SimTrace a
trace
StmTxAborted [SomeTVar s]
read SomeException
e -> do
VectorClock
vClockRead <- [SomeTVar s] -> ST s VectorClock
forall s. [SomeTVar s] -> ST s VectorClock
leastUpperBoundTVarVClocks [SomeTVar s]
read
let effect' :: Effect
effect' = Effect
effect Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [SomeTVar s] -> Effect
forall s. [SomeTVar s] -> Effect
readEffects [SomeTVar s]
read
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Throw e) ctl,
threadVClock = vClock `leastUpperBoundVClock` vClockRead,
threadEffect = effect' }
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Maybe Effect -> SimEventType
EventTxAborted (Effect -> Maybe Effect
forall a. a -> Maybe a
Just Effect
effect'))
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
StmTxBlocked [SomeTVar s]
read -> do
(SomeTVar s -> ST s ()) -> [SomeTVar s] -> ST s ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> IOSimThreadId -> TVar s a -> ST s ()
forall s a. IOSimThreadId -> TVar s a -> ST s ()
blockThreadOnTVar IOSimThreadId
tid TVar s a
tvar) [SomeTVar s]
read
[Labelled TVarId]
vids <- (SomeTVar s -> ST s (Labelled TVarId))
-> [SomeTVar s] -> ST s [Labelled TVarId]
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> [a] -> f [b]
traverse (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s (Labelled TVarId)
forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar) [SomeTVar s]
read
VectorClock
vClockRead <- [SomeTVar s] -> ST s VectorClock
forall s. [SomeTVar s] -> ST s VectorClock
leastUpperBoundTVarVClocks [SomeTVar s]
read
let effect' :: Effect
effect' = Effect
effect Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [SomeTVar s] -> Effect
forall s. [SomeTVar s] -> Effect
readEffects [SomeTVar s]
read
thread' :: Thread s a
thread' = Thread s a
thread { threadVClock = vClock `leastUpperBoundVClock` vClockRead,
threadEffect = effect' }
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnSTM) Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl ([Labelled TVarId] -> Maybe Effect -> SimEventType
EventTxBlocked [Labelled TVarId]
vids (Effect -> Maybe Effect
forall a. a -> Maybe a
Just Effect
effect'))
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnSTM))
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
GetThreadId IOSimThreadId -> SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k tid) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
LabelThread IOSimThreadId
tid' ThreadLabel
l SimA s b
k | IOSimThreadId
tid' IOSimThreadId -> IOSimThreadId -> Bool
forall a. Eq a => a -> a -> Bool
== IOSimThreadId
tid -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl
, threadLabel = Just l }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
LabelThread IOSimThreadId
tid' ThreadLabel
l SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
threads' :: Map IOSimThreadId (Thread s a)
threads' = (Thread s a -> Thread s a)
-> IOSimThreadId
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust (\Thread s a
t -> Thread s a
t { threadLabel = Just l }) IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate { threads = threads' }
ExploreRaces SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl
, threadRacy = True }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
Fix x -> IOSim s x
f x -> SimA s b
k -> do
STRef s x
r <- x -> ST s (STRef s x)
forall a s. a -> ST s (STRef s a)
newSTRef (NonTermination -> x
forall a e. Exception e => e -> a
throw NonTermination
NonTermination)
x
x <- ST s x -> ST s x
forall s a. ST s a -> ST s a
unsafeInterleaveST (ST s x -> ST s x) -> ST s x -> ST s x
forall a b. (a -> b) -> a -> b
$ STRef s x -> ST s x
forall s a. STRef s a -> ST s a
readSTRef STRef s x
r
let k' :: SimA s b
k' = IOSim s x -> forall r. (x -> SimA s r) -> SimA s r
forall s a. IOSim s a -> forall r. (a -> SimA s r) -> SimA s r
unIOSim (x -> IOSim s x
f x
x) ((x -> SimA s b) -> SimA s b) -> (x -> SimA s b) -> SimA s b
forall a b. (a -> b) -> a -> b
$ \x
x' ->
ST s () -> (() -> SimA s b) -> SimA s b
forall s a1 a. ST s a1 -> (a1 -> SimA s a) -> SimA s a
LiftST (ST s () -> ST s ()
forall s a. ST s a -> ST s a
lazyToStrictST (STRef s x -> x -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s x
r x
x')) (\() -> x -> SimA s b
k x
x')
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k' ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
GetMaskState MaskingState -> SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (k maskst) ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SetMaskState MaskingState
maskst' IOSim s a1
action' a1 -> SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl
(runIOSim action')
(MaskFrame k maskst ctl)
, threadMasking = maskst' }
SimTrace a
trace <-
case MaskingState
maskst' of
MaskingState
Unmasked -> Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Interruptable)
(SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread' SimState s a
simstate
MaskingState
_ -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (MaskingState -> SimEventType
EventMask MaskingState
maskst')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
ThrowTo SomeException
e IOSimThreadId
tid' SimA s b
_ | IOSimThreadId
tid' IOSimThreadId -> IOSimThreadId -> Bool
forall a. Eq a => a -> a -> Bool
== IOSimThreadId
tid -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Throw e) ctl
, threadEffect = effect
}
SimTrace a
trace <- Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> IOSimThreadId -> SimEventType
EventThrowTo SomeException
e IOSimThreadId
tid) SimTrace a
trace)
ThrowTo SomeException
e IOSimThreadId
tid' SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl,
threadEffect = effect <> throwToEffect tid'
<> wakeUpEffect,
threadVClock = vClock `leastUpperBoundVClock` vClockTgt
}
(VectorClock
vClockTgt,
Effect
wakeUpEffect,
Bool
willBlock) = (Thread s a -> VectorClock
forall s a. Thread s a -> VectorClock
threadVClock Thread s a
t,
if Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
t then [IOSimThreadId] -> Effect
wakeupEffects [IOSimThreadId
tid'] else Effect
forall a. Monoid a => a
mempty,
Bool -> Bool
not (Thread s a -> Bool
forall s a. Thread s a -> Bool
threadInterruptible Thread s a
t Bool -> Bool -> Bool
|| Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadDone Thread s a
t))
where Just Thread s a
t = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe (Thread s a)
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
if Bool
willBlock
then do
let adjustTarget :: Thread s a -> Thread s a
adjustTarget Thread s a
t =
Thread s a
t { threadThrowTo = (e, Labelled tid tlbl, vClock) : threadThrowTo t }
threads' :: Map IOSimThreadId (Thread s a)
threads' = (Thread s a -> Thread s a)
-> IOSimThreadId
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust Thread s a -> Thread s a
adjustTarget IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnThrowTo) Thread s a
thread' SimState s a
simstate { threads = threads' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> IOSimThreadId -> SimEventType
EventThrowTo SomeException
e IOSimThreadId
tid')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl SimEventType
EventThrowToBlocked
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule (BlockedReason -> Deschedule
Blocked BlockedReason
BlockedOnThrowTo))
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
else do
let adjustTarget :: Thread s a -> Thread s a
adjustTarget t :: Thread s a
t@Thread{ threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
_ ControlStack s b a
ctl',
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock' } =
Thread s a
t { threadControl = ThreadControl (Throw e) ctl'
, threadStatus = if isThreadDone t
then threadStatus t
else ThreadRunning
, threadVClock = vClock' `leastUpperBoundVClock` vClock }
([IOSimThreadId]
_unblocked, simstate' :: SimState s a
simstate'@SimState { threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads = Map IOSimThreadId (Thread s a)
threads' }) = Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
False VectorClock
vClock [IOSimThreadId
tid'] SimState s a
simstate
threads'' :: Map IOSimThreadId (Thread s a)
threads'' = (Thread s a -> Thread s a)
-> IOSimThreadId
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust Thread s a -> Thread s a
adjustTarget IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads'
simstate'' :: SimState s a
simstate'' = SimState s a
simstate' { threads = threads'' }
SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate''
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (SomeException -> IOSimThreadId -> SimEventType
EventThrowTo SomeException
e IOSimThreadId
tid')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ SimTrace a
trace
YieldSim SimA s b
k -> do
let thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl k ctl }
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread' SimState s a
simstate
threadInterruptible :: Thread s a -> Bool
threadInterruptible :: forall s a. Thread s a -> Bool
threadInterruptible Thread s a
thread =
case Thread s a -> MaskingState
forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread of
MaskingState
Unmasked -> Bool
True
MaskingState
MaskedInterruptible
| Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
thread -> Bool
True
| Bool
otherwise -> Bool
False
MaskingState
MaskedUninterruptible -> Bool
False
deschedule :: Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule :: forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock }
simstate :: SimState s a
simstate@SimState{RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue,
Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,
curTime :: forall s a. SimState s a -> Time
curTime = Time
time,
ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control } =
let (Thread s a
thread', Effect
eff) = Thread s a -> (Thread s a, Effect)
forall s a. Thread s a -> (Thread s a, Effect)
stepThread Thread s a
thread
runqueue' :: RunQueue
runqueue' = Thread s a -> RunQueue -> RunQueue
forall s a. Thread s a -> RunQueue -> RunQueue
insertThread Thread s a
thread' RunQueue
runqueue
threads' :: Map IOSimThreadId (Thread s a)
threads' = IOSimThreadId
-> Thread s a
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert IOSimThreadId
tid Thread s a
thread' Map IOSimThreadId (Thread s a)
threads
control' :: ScheduleControl
control' = StepId -> ScheduleControl -> ScheduleControl
advanceControl (Thread s a -> StepId
forall s a. Thread s a -> StepId
threadStepId Thread s a
thread) ScheduleControl
control
races' :: Races
races' = Thread s a -> SimState s a -> Races
forall s a. Thread s a -> SimState s a -> Races
updateRaces Thread s a
thread SimState s a
simstate in
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
eff) (SimTrace a -> SimTrace a)
-> (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Races -> SimEventType
EventRaces Races
races') (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
SimState s a -> ST s (SimTrace a)
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate { runqueue = runqueue',
threads = threads',
races = races',
control = control' }
deschedule Deschedule
Interruptable thread :: Thread s a
thread@Thread {
threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadControl :: forall s a. Thread s a -> ThreadControl s a
threadControl = ThreadControl SimA s b
_ ControlStack s b a
ctl,
threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: forall s a.
Thread s a
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo = (SomeException
e, Labelled IOSimThreadId
tid', VectorClock
vClock') : [(SomeException, Labelled IOSimThreadId, VectorClock)]
etids,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock,
threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
effect
}
simstate :: SimState s a
simstate@SimState{ curTime :: forall s a. SimState s a -> Time
curTime = Time
time, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads } = do
let effect' :: Effect
effect' = Effect
effect Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [IOSimThreadId] -> Effect
wakeupEffects [IOSimThreadId]
unblocked
thread' :: Thread s a
thread' = Thread s a
thread { threadControl = ThreadControl (Throw e) ctl
, threadMasking = MaskedInterruptible
, threadThrowTo = etids
, threadVClock = vClock `leastUpperBoundVClock` vClock'
, threadEffect = effect'
}
([IOSimThreadId]
unblocked,
SimState s a
simstate') = Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
False VectorClock
vClock [Labelled IOSimThreadId -> IOSimThreadId
forall a. Labelled a -> a
l_labelled Labelled IOSimThreadId
tid'] SimState s a
simstate
!SimTrace a
trace <- Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Yield Thread s a
thread' SimState s a
simstate'
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Labelled IOSimThreadId -> SimEventType
EventThrowToUnmasked Labelled IOSimThreadId
tid')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
effect')
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [ (Time
time, IOSimThreadId
tid'', (-Int
1), Maybe ThreadLabel
tlbl'', SimEventType
EventThrowToWakeup)
| IOSimThreadId
tid'' <- [IOSimThreadId]
unblocked
, let tlbl'' :: Maybe ThreadLabel
tlbl'' = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid'' Map IOSimThreadId (Thread s a)
threads ]
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Yield)
SimTrace a
trace
deschedule Deschedule
Interruptable thread :: Thread s a
thread@Thread{threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock}
simstate :: SimState s a
simstate@SimState{ ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control,
curTime :: forall s a. SimState s a -> Time
curTime = Time
time } =
let (Thread s a
thread', Effect
eff) = Thread s a -> (Thread s a, Effect)
forall s a. Thread s a -> (Thread s a, Effect)
stepThread Thread s a
thread
races' :: Races
races' = Thread s a -> SimState s a -> Races
forall s a. Thread s a -> SimState s a -> Races
updateRaces Thread s a
thread SimState s a
simstate in
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
eff) (SimTrace a -> SimTrace a)
-> (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Races -> SimEventType
EventRaces Races
races') (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread'
SimState s a
simstate{ races = races',
control = advanceControl (threadStepId thread) control }
deschedule (Blocked BlockedReason
_blockedReason) thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid
, threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep
, threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl
, threadThrowTo :: forall s a.
Thread s a
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo = (SomeException, Labelled IOSimThreadId, VectorClock)
_ : [(SomeException, Labelled IOSimThreadId, VectorClock)]
_
, threadMasking :: forall s a. Thread s a -> MaskingState
threadMasking = MaskingState
maskst
, threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
effect }
simstate :: SimState s a
simstate@SimState{ curTime :: forall s a. SimState s a -> Time
curTime = Time
time }
| MaskingState
maskst MaskingState -> MaskingState -> Bool
forall a. Eq a => a -> a -> Bool
/= MaskingState
MaskedUninterruptible =
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Deschedule -> SimEventType
EventDeschedule Deschedule
Interruptable) (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a.
Deschedule -> Thread s a -> SimState s a -> ST s (SimTrace a)
deschedule Deschedule
Interruptable Thread s a
thread { threadMasking = Unmasked } SimState s a
simstate
deschedule (Blocked BlockedReason
blockedReason) thread :: Thread s a
thread@Thread{ threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock}
simstate :: SimState s a
simstate@SimState{ Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,
curTime :: forall s a. SimState s a -> Time
curTime = Time
time,
ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control } =
let thread1 :: Thread s a
thread1 = Thread s a
thread { threadStatus = ThreadBlocked blockedReason }
(Thread s a
thread', Effect
eff) = Thread s a -> (Thread s a, Effect)
forall s a. Thread s a -> (Thread s a, Effect)
stepThread Thread s a
thread1
threads' :: Map IOSimThreadId (Thread s a)
threads' = IOSimThreadId
-> Thread s a
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
thread') Thread s a
thread' Map IOSimThreadId (Thread s a)
threads
races' :: Races
races' = Thread s a -> SimState s a -> Races
forall s a. Thread s a -> SimState s a -> Races
updateRaces Thread s a
thread1 SimState s a
simstate in
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
eff) (SimTrace a -> SimTrace a)
-> (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall b c a. (b -> c) -> (a -> b) -> a -> c
.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Races -> SimEventType
EventRaces Races
races') (SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
SimState s a -> ST s (SimTrace a)
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate { threads = threads',
races = races',
control = advanceControl (threadStepId thread1) control }
deschedule Deschedule
Terminated thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid, threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep, threadLabel :: forall s a. Thread s a -> Maybe ThreadLabel
threadLabel = Maybe ThreadLabel
tlbl,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock, threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
effect }
simstate :: SimState s a
simstate@SimState{ curTime :: forall s a. SimState s a -> Time
curTime = Time
time, ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control } = do
let wakeup :: [IOSimThreadId]
wakeup = ((SomeException, Labelled IOSimThreadId, VectorClock)
-> IOSimThreadId)
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
-> [IOSimThreadId]
forall a b. (a -> b) -> [a] -> [b]
map (\(SomeException
_,Labelled IOSimThreadId
tid',VectorClock
_) -> Labelled IOSimThreadId -> IOSimThreadId
forall a. Labelled a -> a
l_labelled Labelled IOSimThreadId
tid') ([(SomeException, Labelled IOSimThreadId, VectorClock)]
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
forall a. [a] -> [a]
reverse (Thread s a
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
forall s a.
Thread s a
-> [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo Thread s a
thread))
([IOSimThreadId]
unblocked,
simstate' :: SimState s a
simstate'@SimState{Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads}) =
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
False VectorClock
vClock [IOSimThreadId]
wakeup SimState s a
simstate
effect' :: Effect
effect' = Effect
effect Effect -> Effect -> Effect
forall a. Semigroup a => a -> a -> a
<> [IOSimThreadId] -> Effect
wakeupEffects [IOSimThreadId]
unblocked
(Thread s a
thread', Effect
eff) = Thread s a -> (Thread s a, Effect)
forall s a. Thread s a -> (Thread s a, Effect)
stepThread (Thread s a -> (Thread s a, Effect))
-> Thread s a -> (Thread s a, Effect)
forall a b. (a -> b) -> a -> b
$ Thread s a
thread { threadStatus = ThreadDone,
threadEffect = effect' }
threads' :: Map IOSimThreadId (Thread s a)
threads' = IOSimThreadId
-> Thread s a
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert IOSimThreadId
tid Thread s a
thread' Map IOSimThreadId (Thread s a)
threads
races' :: Races
races' = IOSimThreadId -> Races -> Races
threadTerminatesRaces IOSimThreadId
tid (Races -> Races) -> Races -> Races
forall a b. (a -> b) -> a -> b
$ Thread s a -> SimState s a -> Races
forall s a. Thread s a -> SimState s a -> Races
updateRaces Thread s a
thread { threadEffect = effect' } SimState s a
simstate
!SimTrace a
trace <- SimState s a -> ST s (SimTrace a)
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate' { races = races',
control = advanceControl (threadStepId thread) control,
threads = threads' }
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany
[ (Time
time, IOSimThreadId
tid', (-Int
1), Maybe ThreadLabel
tlbl', SimEventType
EventThrowToWakeup)
| IOSimThreadId
tid' <- [IOSimThreadId]
unblocked
, let tlbl' :: Maybe ThreadLabel
tlbl' = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads ]
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (VectorClock -> Effect -> SimEventType
EventEffect VectorClock
vClock Effect
eff)
(SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl (Races -> SimEventType
EventRaces Races
races')
SimTrace a
trace
deschedule Deschedule
Sleep thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid , threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
effect' }
simstate :: SimState s a
simstate@SimState{RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads} =
let runqueue' :: RunQueue
runqueue' = Thread s a -> RunQueue -> RunQueue
forall s a. Thread s a -> RunQueue -> RunQueue
insertThread Thread s a
thread RunQueue
runqueue
threads' :: Map IOSimThreadId (Thread s a)
threads' = IOSimThreadId
-> Thread s a
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert IOSimThreadId
tid Thread s a
thread Map IOSimThreadId (Thread s a)
threads in
SimState s a -> ST s (SimTrace a)
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate { runqueue = runqueue', threads = threads' }
reschedule :: SimState s a -> ST s (SimTrace a)
reschedule :: forall s a. SimState s a -> ST s (SimTrace a)
reschedule simstate :: SimState s a
simstate@SimState { RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, control :: forall s a. SimState s a -> ScheduleControl
control = control :: ScheduleControl
control@(ControlFollow ((IOSimThreadId
tid,Int
_):[StepId]
_) [ScheduleMod]
_) }
| Bool -> Bool
not (IOSimThreadId -> Down IOSimThreadId
forall a. a -> Down a
Down IOSimThreadId
tid Down IOSimThreadId -> RunQueue -> Bool
forall k p v. Ord k => k -> OrdPSQ k p v -> Bool
`PSQ.member` RunQueue
runqueue) =
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimResult a -> SimTrace a
forall a b. a -> Trace a b
Trace.Nil (ThreadLabel -> SimResult a
forall a. ThreadLabel -> SimResult a
InternalError (ThreadLabel
"assertion failure: " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ IOSimThreadId -> ThreadLabel
ppIOSimThreadId IOSimThreadId
tid ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
" not runnable")))
reschedule simstate :: SimState s a
simstate@SimState { Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads, control :: forall s a. SimState s a -> ScheduleControl
control = control :: ScheduleControl
control@(ControlFollow ((IOSimThreadId
tid,Int
_):[StepId]
_) [ScheduleMod]
_) }
| Bool -> Bool
not (IOSimThreadId
tid IOSimThreadId -> Map IOSimThreadId (Thread s a) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map IOSimThreadId (Thread s a)
threads) =
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimResult a -> SimTrace a
forall a b. a -> Trace a b
Trace.Nil (ThreadLabel -> SimResult a
forall a. ThreadLabel -> SimResult a
InternalError (ThreadLabel
"assertion failure: " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ IOSimThreadId -> ThreadLabel
ppIOSimThreadId IOSimThreadId
tid ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
" not in threads")))
reschedule simstate :: SimState s a
simstate@SimState { RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads,
control :: forall s a. SimState s a -> ScheduleControl
control = control :: ScheduleControl
control@(ControlFollow ((IOSimThreadId
tid,Int
tstep):[StepId]
_) [ScheduleMod]
_),
curTime :: forall s a. SimState s a -> Time
curTime = Time
time } =
(SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> ST s a -> ST s b
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
fmap (Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
forall a. Maybe a
Nothing (ScheduleControl -> SimEventType
EventReschedule ScheduleControl
control)) (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
Maybe (Thread s a)
-> SimState s a -> ST s (SimTrace a) -> ST s (SimTrace a)
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant Maybe (Thread s a)
forall a. Maybe a
Nothing SimState s a
simstate (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
let thread :: Thread s a
thread = Map IOSimThreadId (Thread s a)
threads Map IOSimThreadId (Thread s a) -> IOSimThreadId -> Thread s a
forall k a. Ord k => Map k a -> k -> a
Map.! IOSimThreadId
tid in
Bool -> ST s (SimTrace a) -> ST s (SimTrace a)
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
thread IOSimThreadId -> IOSimThreadId -> Bool
forall a. Eq a => a -> a -> Bool
== IOSimThreadId
tid) (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
if Thread s a -> Int
forall s a. Thread s a -> Int
threadStep Thread s a
thread Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
/= Int
tstep then
ThreadLabel -> ST s (SimTrace a)
forall a. (?callStack::CallStack) => ThreadLabel -> a
error (ThreadLabel -> ST s (SimTrace a))
-> ThreadLabel -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ ThreadLabel
"Thread step out of sync\n"
ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
" runqueue: "ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++RunQueue -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show RunQueue
runqueueThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ThreadLabel
"\n"
ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
" follows: "ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++IOSimThreadId -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show IOSimThreadId
tidThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ThreadLabel
", step "ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show Int
tstepThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ThreadLabel
"\n"
ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
" actual step: "ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show (Thread s a -> Int
forall s a. Thread s a -> Int
threadStep Thread s a
thread)ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ThreadLabel
"\n"
ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
"Thread:\n" ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ Thread s a -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show Thread s a
thread ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ ThreadLabel
"\n"
else
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread SimState s a
simstate { runqueue = PSQ.delete (Down tid) runqueue
, threads = Map.delete tid threads }
reschedule simstate :: SimState s a
simstate@SimState{ RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads }
| Just (Down !IOSimThreadId
tid, Down IOSimThreadId
_, ()
_, RunQueue
runqueue') <- RunQueue
-> Maybe (Down IOSimThreadId, Down IOSimThreadId, (), RunQueue)
forall k p v.
(Ord k, Ord p) =>
OrdPSQ k p v -> Maybe (k, p, v, OrdPSQ k p v)
PSQ.minView RunQueue
runqueue =
Maybe (Thread s a)
-> SimState s a -> ST s (SimTrace a) -> ST s (SimTrace a)
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant Maybe (Thread s a)
forall a. Maybe a
Nothing SimState s a
simstate (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
let thread :: Thread s a
thread = Map IOSimThreadId (Thread s a)
threads Map IOSimThreadId (Thread s a) -> IOSimThreadId -> Thread s a
forall k a. Ord k => Map k a -> k -> a
Map.! IOSimThreadId
tid in
Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
thread SimState s a
simstate { runqueue = runqueue'
, threads = Map.delete tid threads }
reschedule simstate :: SimState s a
simstate@SimState{ Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads, Timeouts s
timers :: forall s a. SimState s a -> Timeouts s
timers :: Timeouts s
timers, curTime :: forall s a. SimState s a -> Time
curTime = Time
time, Races
races :: forall s a. SimState s a -> Races
races :: Races
races } =
Maybe (Thread s a)
-> SimState s a -> ST s (SimTrace a) -> ST s (SimTrace a)
forall s a x. Maybe (Thread s a) -> SimState s a -> x -> x
invariant Maybe (Thread s a)
forall a. Maybe a
Nothing SimState s a
simstate (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
case Timeouts s
-> Maybe ([TimeoutId], Time, [TimerCompletionInfo s], Timeouts s)
forall k p a.
(Ord k, Ord p) =>
OrdPSQ k p a -> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums Timeouts s
timers of
Maybe ([TimeoutId], Time, [TimerCompletionInfo s], Timeouts s)
Nothing -> SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimState s a -> SimTrace a -> SimTrace a
forall s a. SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound SimState s a
simstate (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
Time -> [Labelled IOSimThreadId] -> SimTrace a
forall a. Time -> [Labelled IOSimThreadId] -> SimTrace a
TraceDeadlock Time
time (Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
forall s a.
Map IOSimThreadId (Thread s a) -> [Labelled IOSimThreadId]
labelledThreads Map IOSimThreadId (Thread s a)
threads))
Just ([TimeoutId]
tmids, Time
time', [TimerCompletionInfo s]
fired, Timeouts s
timers') -> Bool -> ST s (SimTrace a) -> ST s (SimTrace a)
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Time
time' Time -> Time -> Bool
forall a. Ord a => a -> a -> Bool
>= Time
time) (ST s (SimTrace a) -> ST s (SimTrace a))
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$ do
[SomeTVar s]
written <- StmA s () -> ST s [SomeTVar s]
forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' (STM s () -> StmA s ()
forall s a. STM s a -> StmA s a
runSTM (STM s () -> StmA s ()) -> STM s () -> StmA s ()
forall a b. (a -> b) -> a -> b
$ (TimerCompletionInfo s -> STM s ())
-> [TimerCompletionInfo s] -> STM s ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ TimerCompletionInfo s -> STM (IOSim s) ()
TimerCompletionInfo s -> STM s ()
forall {m :: * -> *} {s}.
(TVar m ~ TVar s, MonadSTM m) =>
TimerCompletionInfo s -> STM m ()
timeoutAction [TimerCompletionInfo s]
fired)
![TraceValue]
ds <- (SomeTVar s -> ST s TraceValue)
-> [SomeTVar s] -> ST s [TraceValue]
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> [a] -> f [b]
traverse (\(SomeTVar TVar s a
tvar) -> do
TraceValue
tr <- TVar s a -> Bool -> ST s TraceValue
forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar s a
tvar Bool
False
!()
_ <- TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar
TraceValue -> ST s TraceValue
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return TraceValue
tr) [SomeTVar s]
written
([IOSimThreadId]
wakeupSTM, Map IOSimThreadId (Set (Labelled TVarId))
wokeby) <- [SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
forall s.
[SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written
(SomeTVar s -> ST s ()) -> [SomeTVar s] -> ST s ()
forall (t :: * -> *) (m :: * -> *) a b.
(Foldable t, Monad m) =>
(a -> m b) -> t a -> m ()
mapM_ (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar s a
tvar) [SomeTVar s]
written
let wakeupThreadDelay :: [(IOSimThreadId, TimeoutId)]
wakeupThreadDelay = [ (IOSimThreadId
tid, TimeoutId
tmid) | TimerThreadDelay IOSimThreadId
tid TimeoutId
tmid <- [TimerCompletionInfo s]
fired ]
!simstate' :: SimState s a
simstate' =
([IOSimThreadId], SimState s a) -> SimState s a
forall a b. (a, b) -> b
snd (([IOSimThreadId], SimState s a) -> SimState s a)
-> (SimState s a -> ([IOSimThreadId], SimState s a))
-> SimState s a
-> SimState s a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
False VectorClock
bottomVClock ((IOSimThreadId, TimeoutId) -> IOSimThreadId
forall a b. (a, b) -> a
fst ((IOSimThreadId, TimeoutId) -> IOSimThreadId)
-> [(IOSimThreadId, TimeoutId)] -> [IOSimThreadId]
forall a b. (a -> b) -> [a] -> [b]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
`fmap` [(IOSimThreadId, TimeoutId)]
wakeupThreadDelay)
(SimState s a -> ([IOSimThreadId], SimState s a))
-> (SimState s a -> SimState s a)
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall b c a. (b -> c) -> (a -> b) -> a -> c
. ([IOSimThreadId], SimState s a) -> SimState s a
forall a b. (a, b) -> b
snd (([IOSimThreadId], SimState s a) -> SimState s a)
-> (SimState s a -> ([IOSimThreadId], SimState s a))
-> SimState s a
-> SimState s a
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads Bool
True VectorClock
bottomVClock [IOSimThreadId]
wakeupSTM
(SimState s a -> SimState s a) -> SimState s a -> SimState s a
forall a b. (a -> b) -> a -> b
$ SimState s a
simstate
!timeoutExpired :: [(IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)]
timeoutExpired = [ (IOSimThreadId
tid, TimeoutId
tmid, TMVarDefault (IOSim s) IOSimThreadId
TMVar (IOSim s) IOSimThreadId
lock)
| TimerTimeout IOSimThreadId
tid TimeoutId
tmid TMVar (IOSim s) IOSimThreadId
lock <- [TimerCompletionInfo s]
fired ]
!SimState s a
simstate'' <- [(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
-> SimState s a -> ST s (SimState s a)
forall s a.
[(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
-> SimState s a -> ST s (SimState s a)
forkTimeoutInterruptThreads [(IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)]
[(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
timeoutExpired
SimState s a
simstate' { races = noRaces }
!SimTrace a
trace <- SimState s a -> ST s (SimTrace a)
forall s a. SimState s a -> ST s (SimTrace a)
reschedule SimState s a
simstate'' { curTime = time'
, timers = timers' }
let traceEntries :: [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
traceEntries =
[ ( Time
time', [Int] -> IOSimThreadId
ThreadId [-Int
1], -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"timer"
, TimeoutId -> SimEventType
EventTimerFired TimeoutId
tmid)
| (TimeoutId
tmid, Timer TVar s TimeoutState
_) <- [TimeoutId]
-> [TimerCompletionInfo s] -> [(TimeoutId, TimerCompletionInfo s)]
forall a b. [a] -> [b] -> [(a, b)]
zip [TimeoutId]
tmids [TimerCompletionInfo s]
fired ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', [Int] -> IOSimThreadId
ThreadId [-Int
1], -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"register delay timer"
, TimeoutId -> SimEventType
EventRegisterDelayFired TimeoutId
tmid)
| (TimeoutId
tmid, TimerRegisterDelay TVar s Bool
_) <- [TimeoutId]
-> [TimerCompletionInfo s] -> [(TimeoutId, TimerCompletionInfo s)]
forall a b. [a] -> [b] -> [(a, b)]
zip [TimeoutId]
tmids [TimerCompletionInfo s]
fired ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ (Time
time', [Int] -> IOSimThreadId
ThreadId [-Int
1], -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"register delay timer", Dynamic -> SimEventType
EventLog (tr -> Dynamic
forall a. Typeable a => a -> Dynamic
toDyn tr
a))
| TraceValue { traceDynamic :: ()
traceDynamic = Just tr
a } <- [TraceValue]
ds ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ (Time
time', [Int] -> IOSimThreadId
ThreadId [-Int
1], -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"register delay timer", ThreadLabel -> SimEventType
EventSay ThreadLabel
a)
| TraceValue { traceString :: TraceValue -> Maybe ThreadLabel
traceString = Just ThreadLabel
a } <- [TraceValue]
ds ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ (Time
time', IOSimThreadId
tid', -Int
1, Maybe ThreadLabel
tlbl', [Labelled TVarId] -> SimEventType
EventTxWakeup [Labelled TVarId]
vids)
| IOSimThreadId
tid' <- [IOSimThreadId]
wakeupSTM
, let tlbl' :: Maybe ThreadLabel
tlbl' = IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid' Map IOSimThreadId (Thread s a)
threads
, let Just [Labelled TVarId]
vids = Set (Labelled TVarId) -> [Labelled TVarId]
forall a. Set a -> [a]
Set.toList (Set (Labelled TVarId) -> [Labelled TVarId])
-> Maybe (Set (Labelled TVarId)) -> Maybe [Labelled TVarId]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> IOSimThreadId
-> Map IOSimThreadId (Set (Labelled TVarId))
-> Maybe (Set (Labelled TVarId))
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid' Map IOSimThreadId (Set (Labelled TVarId))
wokeby ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', IOSimThreadId
tid, -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"thread delay timer"
, TimeoutId -> SimEventType
EventThreadDelayFired TimeoutId
tmid)
| (IOSimThreadId
tid, TimeoutId
tmid) <- [(IOSimThreadId, TimeoutId)]
wakeupThreadDelay ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', IOSimThreadId
tid, -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"timeout timer"
, TimeoutId -> SimEventType
EventTimeoutFired TimeoutId
tmid)
| (IOSimThreadId
tid, TimeoutId
tmid, TMVarDefault (IOSim s) IOSimThreadId
_) <- [(IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)]
timeoutExpired ]
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
forall a. [a] -> [a] -> [a]
++ [ ( Time
time', IOSimThreadId
tid, -Int
1, ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"forked thread"
, IOSimThreadId -> SimEventType
EventThreadForked IOSimThreadId
tid)
| (IOSimThreadId
tid, TimeoutId
_, TMVarDefault (IOSim s) IOSimThreadId
_) <- [(IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)]
timeoutExpired ]
SimTrace a -> ST s (SimTrace a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace a -> ST s (SimTrace a))
-> SimTrace a -> ST s (SimTrace a)
forall a b. (a -> b) -> a -> b
$
SimState s a -> SimTrace a -> SimTrace a
forall s a. SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound SimState s a
simstate (SimTrace a -> SimTrace a) -> SimTrace a -> SimTrace a
forall a b. (a -> b) -> a -> b
$
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
traceEntries SimTrace a
trace
where
timeoutAction :: TimerCompletionInfo s -> STM m ()
timeoutAction (Timer TVar s TimeoutState
var) = do
TimeoutState
x <- TVar m TimeoutState -> STM m TimeoutState
forall a. TVar m a -> STM m a
forall (m :: * -> *) a. MonadSTM m => TVar m a -> STM m a
readTVar TVar m TimeoutState
TVar s TimeoutState
var
case TimeoutState
x of
TimeoutState
TimeoutPending -> TVar m TimeoutState -> TimeoutState -> STM m ()
forall a. TVar m a -> a -> STM m ()
forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar m TimeoutState
TVar s TimeoutState
var TimeoutState
TimeoutFired
TimeoutState
TimeoutFired -> ThreadLabel -> STM m ()
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"MonadTimer(Sim): invariant violation"
TimeoutState
TimeoutCancelled -> () -> STM m ()
forall a. a -> STM m a
forall (m :: * -> *) a. Monad m => a -> m a
return ()
timeoutAction (TimerRegisterDelay TVar s Bool
var) = TVar m Bool -> Bool -> STM m ()
forall a. TVar m a -> a -> STM m ()
forall (m :: * -> *) a. MonadSTM m => TVar m a -> a -> STM m ()
writeTVar TVar m Bool
TVar s Bool
var Bool
True
timeoutAction (TimerThreadDelay IOSimThreadId
_ TimeoutId
_) = () -> STM m ()
forall a. a -> STM m a
forall (m :: * -> *) a. Monad m => a -> m a
return ()
timeoutAction (TimerTimeout IOSimThreadId
_ TimeoutId
_ TMVar (IOSim s) IOSimThreadId
_) = () -> STM m ()
forall a. a -> STM m a
forall (m :: * -> *) a. Monad m => a -> m a
return ()
unblockThreads :: forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads :: forall s a.
Bool
-> VectorClock
-> [IOSimThreadId]
-> SimState s a
-> ([IOSimThreadId], SimState s a)
unblockThreads !Bool
onlySTM VectorClock
vClock [IOSimThreadId]
wakeup simstate :: SimState s a
simstate@SimState {RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads} =
( [IOSimThreadId]
unblockedIds
, SimState s a
simstate { runqueue = foldr insertThread runqueue unblocked,
threads = threads'
})
where
unblocked :: [Thread s a]
!unblocked :: [Thread s a]
unblocked = [ Thread s a
thread
| IOSimThreadId
tid <- [IOSimThreadId]
wakeup
, Thread s a
thread <-
case IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe (Thread s a)
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid Map IOSimThreadId (Thread s a)
threads of
Just Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadStatus
ThreadRunning }
-> [ ]
Just t :: Thread s a
t@Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadBlocked BlockedReason
BlockedOnSTM }
-> [Thread s a
t]
Just t :: Thread s a
t@Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadBlocked BlockedReason
_ }
| Bool
onlySTM
-> [ ]
| Bool
otherwise
-> [Thread s a
t]
Just Thread { threadStatus :: forall s a. Thread s a -> ThreadStatus
threadStatus = ThreadStatus
ThreadDone } -> [ ]
Maybe (Thread s a)
Nothing -> [ ]
]
unblockedIds :: [IOSimThreadId]
!unblockedIds :: [IOSimThreadId]
unblockedIds = (Thread s a -> IOSimThreadId) -> [Thread s a] -> [IOSimThreadId]
forall a b. (a -> b) -> [a] -> [b]
map Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId [Thread s a]
unblocked
!threads' :: Map IOSimThreadId (Thread s a)
threads' = (Map IOSimThreadId (Thread s a)
-> IOSimThreadId -> Map IOSimThreadId (Thread s a))
-> Map IOSimThreadId (Thread s a)
-> [IOSimThreadId]
-> Map IOSimThreadId (Thread s a)
forall b a. (b -> a -> b) -> b -> [a] -> b
forall (t :: * -> *) b a.
Foldable t =>
(b -> a -> b) -> b -> t a -> b
List.foldl'
((IOSimThreadId
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a))
-> Map IOSimThreadId (Thread s a)
-> IOSimThreadId
-> Map IOSimThreadId (Thread s a)
forall a b c. (a -> b -> c) -> b -> a -> c
flip ((Thread s a -> Thread s a)
-> IOSimThreadId
-> Map IOSimThreadId (Thread s a)
-> Map IOSimThreadId (Thread s a)
forall k a. Ord k => (a -> a) -> k -> Map k a -> Map k a
Map.adjust
(\Thread s a
t -> Thread s a
t { threadStatus = ThreadRunning,
threadVClock = vClock `leastUpperBoundVClock` threadVClock t })))
Map IOSimThreadId (Thread s a)
threads [IOSimThreadId]
unblockedIds
forkTimeoutInterruptThreads :: forall s a.
[(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
-> SimState s a
-> ST s (SimState s a)
forkTimeoutInterruptThreads :: forall s a.
[(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
-> SimState s a -> ST s (SimState s a)
forkTimeoutInterruptThreads [(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
timeoutExpired SimState s a
simState =
(SimState s a
-> (Thread s a, TMVarDefault (IOSim s) IOSimThreadId)
-> ST s (SimState s a))
-> SimState s a
-> [(Thread s a, TMVarDefault (IOSim s) IOSimThreadId)]
-> ST s (SimState s a)
forall (t :: * -> *) (m :: * -> *) b a.
(Foldable t, Monad m) =>
(b -> a -> m b) -> b -> t a -> m b
foldlM (\st :: SimState s a
st@SimState{ RunQueue
runqueue :: forall s a. SimState s a -> RunQueue
runqueue :: RunQueue
runqueue, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads }
(Thread s a
t, TMVar TVar (IOSim s) (Maybe IOSimThreadId)
lock)
-> do
Maybe IOSimThreadId
v <- TVar s (Maybe IOSimThreadId) -> ST s (Maybe IOSimThreadId)
forall s a. TVar s a -> ST s a
execReadTVar TVar (IOSim s) (Maybe IOSimThreadId)
TVar s (Maybe IOSimThreadId)
lock
SimState s a -> ST s (SimState s a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimState s a -> ST s (SimState s a))
-> SimState s a -> ST s (SimState s a)
forall a b. (a -> b) -> a -> b
$ case Maybe IOSimThreadId
v of
Maybe IOSimThreadId
Nothing -> SimState s a
st { runqueue = insertThread t runqueue,
threads = Map.insert (threadId t) t threads
}
Just IOSimThreadId
_ -> SimState s a
st
)
SimState s a
simState'
[(Thread s a, TMVarDefault (IOSim s) IOSimThreadId)]
[(Thread s a, TMVar (IOSim s) IOSimThreadId)]
throwToThread
where
throwToThread :: [(Thread s a, TMVar (IOSim s) IOSimThreadId)]
(SimState s a
simState', [(Thread s a, TMVarDefault (IOSim s) IOSimThreadId)]
[(Thread s a, TMVar (IOSim s) IOSimThreadId)]
throwToThread) = (SimState s a
-> (IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)
-> (SimState s a,
(Thread s a, TMVarDefault (IOSim s) IOSimThreadId)))
-> SimState s a
-> [(IOSimThreadId, TimeoutId,
TMVarDefault (IOSim s) IOSimThreadId)]
-> (SimState s a,
[(Thread s a, TMVarDefault (IOSim s) IOSimThreadId)])
forall (t :: * -> *) s a b.
Traversable t =>
(s -> a -> (s, b)) -> s -> t a -> (s, t b)
List.mapAccumR SimState s a
-> (IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)
-> (SimState s a,
(Thread s a, TMVarDefault (IOSim s) IOSimThreadId))
SimState s a
-> (IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) IOSimThreadId))
fn SimState s a
simState [(IOSimThreadId, TimeoutId, TMVarDefault (IOSim s) IOSimThreadId)]
[(IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)]
timeoutExpired
where
fn :: SimState s a
-> (IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) IOSimThreadId))
fn :: SimState s a
-> (IOSimThreadId, TimeoutId, TMVar (IOSim s) IOSimThreadId)
-> (SimState s a, (Thread s a, TMVar (IOSim s) IOSimThreadId))
fn state :: SimState s a
state@SimState { Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads } (IOSimThreadId
tid, TimeoutId
tmid, TMVar (IOSim s) IOSimThreadId
lock) =
let t :: Thread s a
t = case IOSimThreadId
tid IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe (Thread s a)
forall k a. Ord k => k -> Map k a -> Maybe a
`Map.lookup` Map IOSimThreadId (Thread s a)
threads of
Just Thread s a
t' -> Thread s a
t'
Maybe (Thread s a)
Nothing -> ThreadLabel -> Thread s a
forall a. (?callStack::CallStack) => ThreadLabel -> a
error (ThreadLabel
"IOSimPOR: internal error: unknown thread " ThreadLabel -> ShowS
forall a. [a] -> [a] -> [a]
++ IOSimThreadId -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show IOSimThreadId
tid)
nextId :: Int
nextId = Thread s a -> Int
forall s a. Thread s a -> Int
threadNextTId Thread s a
t
tid' :: IOSimThreadId
tid' = IOSimThreadId -> Int -> IOSimThreadId
childThreadId IOSimThreadId
tid Int
nextId
in ( SimState s a
state { threads = Map.insert tid t { threadNextTId = succ nextId } threads }
, ( Thread { threadId :: IOSimThreadId
threadId = IOSimThreadId
tid',
threadControl :: ThreadControl s a
threadControl =
SimA s () -> ControlStack s () a -> ThreadControl s a
forall s b a. SimA s b -> ControlStack s b a -> ThreadControl s a
ThreadControl
(IOSim s () -> SimA s ()
forall s a. IOSim s a -> SimA s a
runIOSim (IOSim s () -> SimA s ()) -> IOSim s () -> SimA s ()
forall a b. (a -> b) -> a -> b
$ do
IOSimThreadId
mtid <- IOSim s (ThreadId (IOSim s))
IOSim s IOSimThreadId
forall (m :: * -> *). MonadThread m => m (ThreadId m)
myThreadId
Bool
v2 <- STM (IOSim s) Bool -> IOSim s Bool
forall a. (?callStack::CallStack) => STM (IOSim s) a -> IOSim s a
forall (m :: * -> *) a.
(MonadSTM m, ?callStack::CallStack) =>
STM m a -> m a
atomically (STM (IOSim s) Bool -> IOSim s Bool)
-> STM (IOSim s) Bool -> IOSim s Bool
forall a b. (a -> b) -> a -> b
$ TMVar (IOSim s) IOSimThreadId
-> IOSimThreadId -> STM (IOSim s) Bool
forall a. TMVar (IOSim s) a -> a -> STM (IOSim s) Bool
forall (m :: * -> *) a. MonadSTM m => TMVar m a -> a -> STM m Bool
tryPutTMVar TMVar (IOSim s) IOSimThreadId
lock IOSimThreadId
mtid
Bool -> IOSim s () -> IOSim s ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when Bool
v2 (IOSim s () -> IOSim s ()) -> IOSim s () -> IOSim s ()
forall a b. (a -> b) -> a -> b
$
ThreadId (IOSim s) -> SomeException -> IOSim s ()
forall e. Exception e => ThreadId (IOSim s) -> e -> IOSim s ()
forall (m :: * -> *) e.
(MonadFork m, Exception e) =>
ThreadId m -> e -> m ()
throwTo ThreadId (IOSim s)
IOSimThreadId
tid (TimeoutException -> SomeException
forall e. Exception e => e -> SomeException
toException (TimeoutId -> TimeoutException
TimeoutException TimeoutId
tmid)))
ControlStack s () a
forall s a. ControlStack s () a
ForkFrame,
threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning,
threadMasking :: MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo = [],
threadClockId :: ClockId
threadClockId = Thread s a -> ClockId
forall s a. Thread s a -> ClockId
threadClockId Thread s a
t,
threadLabel :: Maybe ThreadLabel
threadLabel = ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"timeout-forked-thread",
threadNextTId :: Int
threadNextTId = Int
1,
threadStep :: Int
threadStep = Int
0,
threadVClock :: VectorClock
threadVClock = IOSimThreadId -> Int -> VectorClock -> VectorClock
insertVClock IOSimThreadId
tid' Int
0
(VectorClock -> VectorClock) -> VectorClock -> VectorClock
forall a b. (a -> b) -> a -> b
$ Thread s a -> VectorClock
forall s a. Thread s a -> VectorClock
threadVClock Thread s a
t,
threadEffect :: Effect
threadEffect = Effect
forall a. Monoid a => a
mempty,
threadRacy :: Bool
threadRacy = Thread s a -> Bool
forall s a. Thread s a -> Bool
threadRacy Thread s a
t
}
, TMVar (IOSim s) IOSimThreadId
lock
)
)
unwindControlStack :: forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> ( Either Bool (Thread s a)
, Timeouts s
)
unwindControlStack :: forall s a.
SomeException
-> Thread s a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
unwindControlStack SomeException
e Thread s a
thread = \Timeouts s
timeouts ->
case Thread s a -> ThreadControl s a
forall s a. Thread s a -> ThreadControl s a
threadControl Thread s a
thread of
ThreadControl SimA s b
_ ControlStack s b a
ctl -> MaskingState
-> ControlStack s b a
-> Timeouts s
-> (Either Bool (Thread s a), Timeouts s)
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind (Thread s a -> MaskingState
forall s a. Thread s a -> MaskingState
threadMasking Thread s a
thread) ControlStack s b a
ctl Timeouts s
timeouts
where
unwind :: forall s' c. MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind :: forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
_ ControlStack s' c a
MainFrame Timeouts s
timers = (Bool -> Either Bool (Thread s' a)
forall a b. a -> Either a b
Left Bool
True, Timeouts s
timers)
unwind MaskingState
_ ControlStack s' c a
ForkFrame Timeouts s
timers = (Bool -> Either Bool (Thread s' a)
forall a b. a -> Either a b
Left Bool
False, Timeouts s
timers)
unwind MaskingState
_ (MaskFrame c -> SimA s' c
_k MaskingState
maskst' ControlStack s' c a
ctl) Timeouts s
timers = MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst' ControlStack s' c a
ctl Timeouts s
timers
unwind MaskingState
maskst (CatchFrame e -> SimA s' c
handler c -> SimA s' c
k ControlStack s' c a
ctl) Timeouts s
timers =
case SomeException -> Maybe e
forall e. Exception e => SomeException -> Maybe e
fromException SomeException
e of
Maybe e
Nothing -> MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers
Just e
e' -> ( Thread s' a -> Either Bool (Thread s' a)
forall a b. b -> Either a b
Right Thread s a
thread {
threadControl = ThreadControl (handler e')
(MaskFrame k maskst ctl),
threadMasking = atLeastInterruptibleMask maskst
}
, Timeouts s
timers
)
unwind MaskingState
maskst (TimeoutFrame TimeoutId
tmid TMVar (IOSim s') IOSimThreadId
isLockedRef Maybe c -> SimA s' c
k ControlStack s' c a
ctl) Timeouts s
timers =
case SomeException -> Maybe TimeoutException
forall e. Exception e => SomeException -> Maybe e
fromException SomeException
e of
Just (TimeoutException TimeoutId
tmid') | TimeoutId
tmid TimeoutId -> TimeoutId -> Bool
forall a. Eq a => a -> a -> Bool
== TimeoutId
tmid' ->
(Thread s' a -> Either Bool (Thread s' a)
forall a b. b -> Either a b
Right Thread s a
thread { threadControl = ThreadControl (k Nothing) ctl }, Timeouts s
timers')
Maybe TimeoutException
_ -> MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers'
where
timers' :: Timeouts s
timers' = TimeoutId -> Timeouts s -> Timeouts s
forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
unwind MaskingState
maskst (DelayFrame TimeoutId
tmid SimA s' c
_k ControlStack s' c a
ctl) Timeouts s
timers =
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
forall s' c.
MaskingState
-> ControlStack s' c a
-> Timeouts s
-> (Either Bool (Thread s' a), Timeouts s)
unwind MaskingState
maskst ControlStack s' c a
ctl Timeouts s
timers'
where
timers' :: Timeouts s
timers' = TimeoutId -> Timeouts s -> Timeouts s
forall k p v. (Ord k, Ord p) => k -> OrdPSQ k p v -> OrdPSQ k p v
PSQ.delete TimeoutId
tmid Timeouts s
timers
atLeastInterruptibleMask :: MaskingState -> MaskingState
atLeastInterruptibleMask :: MaskingState -> MaskingState
atLeastInterruptibleMask MaskingState
Unmasked = MaskingState
MaskedInterruptible
atLeastInterruptibleMask MaskingState
ms = MaskingState
ms
removeMinimums :: (Ord k, Ord p)
=> OrdPSQ k p a
-> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums :: forall k p a.
(Ord k, Ord p) =>
OrdPSQ k p a -> Maybe ([k], p, [a], OrdPSQ k p a)
removeMinimums = \OrdPSQ k p a
psq ->
case OrdPSQ k p a -> Maybe (k, p, a, OrdPSQ k p a)
forall k p v.
(Ord k, Ord p) =>
OrdPSQ k p v -> Maybe (k, p, v, OrdPSQ k p v)
PSQ.minView OrdPSQ k p a
psq of
Maybe (k, p, a, OrdPSQ k p a)
Nothing -> Maybe ([k], p, [a], OrdPSQ k p a)
forall a. Maybe a
Nothing
Just (k
k, p
p, a
x, OrdPSQ k p a
psq') -> ([k], p, [a], OrdPSQ k p a) -> Maybe ([k], p, [a], OrdPSQ k p a)
forall a. a -> Maybe a
Just ([k] -> p -> [a] -> OrdPSQ k p a -> ([k], p, [a], OrdPSQ k p a)
forall {a} {b} {a}.
(Ord a, Ord b) =>
[a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll [k
k] p
p [a
x] OrdPSQ k p a
psq')
where
collectAll :: [a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll [a]
ks b
p [a]
xs OrdPSQ a b a
psq =
case OrdPSQ a b a -> Maybe (a, b, a, OrdPSQ a b a)
forall k p v.
(Ord k, Ord p) =>
OrdPSQ k p v -> Maybe (k, p, v, OrdPSQ k p v)
PSQ.minView OrdPSQ a b a
psq of
Just (a
k, b
p', a
x, OrdPSQ a b a
psq')
| b
p b -> b -> Bool
forall a. Eq a => a -> a -> Bool
== b
p' -> [a] -> b -> [a] -> OrdPSQ a b a -> ([a], b, [a], OrdPSQ a b a)
collectAll (a
ka -> [a] -> [a]
forall a. a -> [a] -> [a]
:[a]
ks) b
p (a
xa -> [a] -> [a]
forall a. a -> [a] -> [a]
:[a]
xs) OrdPSQ a b a
psq'
Maybe (a, b, a, OrdPSQ a b a)
_ -> ([a] -> [a]
forall a. [a] -> [a]
reverse [a]
ks, b
p, [a] -> [a]
forall a. [a] -> [a]
reverse [a]
xs, OrdPSQ a b a
psq)
traceMany :: [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany :: forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [] SimTrace a
trace = SimTrace a
trace
traceMany ((Time
time, IOSimThreadId
tid, Int
tstep, Maybe ThreadLabel
tlbl, SimEventType
event):[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
ts) SimTrace a
trace =
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid Int
tstep Maybe ThreadLabel
tlbl SimEventType
event ([(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
forall a.
[(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
-> SimTrace a -> SimTrace a
traceMany [(Time, IOSimThreadId, Int, Maybe ThreadLabel, SimEventType)]
ts SimTrace a
trace)
lookupThreadLabel :: IOSimThreadId -> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel :: forall s a.
IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe ThreadLabel
lookupThreadLabel IOSimThreadId
tid Map IOSimThreadId (Thread s a)
threads = Maybe (Maybe ThreadLabel) -> Maybe ThreadLabel
forall (m :: * -> *) a. Monad m => m (m a) -> m a
join (Thread s a -> Maybe ThreadLabel
forall s a. Thread s a -> Maybe ThreadLabel
threadLabel (Thread s a -> Maybe ThreadLabel)
-> Maybe (Thread s a) -> Maybe (Maybe ThreadLabel)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> IOSimThreadId
-> Map IOSimThreadId (Thread s a) -> Maybe (Thread s a)
forall k a. Ord k => k -> Map k a -> Maybe a
Map.lookup IOSimThreadId
tid Map IOSimThreadId (Thread s a)
threads)
runSimTraceST :: forall s a. IOSim s a -> ST s (SimTrace a)
runSimTraceST :: forall s a. IOSim s a -> ST s (SimTrace a)
runSimTraceST IOSim s a
mainAction = Maybe Int -> ScheduleControl -> IOSim s a -> ST s (SimTrace a)
forall s a.
Maybe Int -> ScheduleControl -> IOSim s a -> ST s (SimTrace a)
controlSimTraceST Maybe Int
forall a. Maybe a
Nothing ScheduleControl
ControlDefault IOSim s a
mainAction
controlSimTraceST :: Maybe Int -> ScheduleControl -> IOSim s a -> ST s (SimTrace a)
controlSimTraceST :: forall s a.
Maybe Int -> ScheduleControl -> IOSim s a -> ST s (SimTrace a)
controlSimTraceST Maybe Int
limit ScheduleControl
control IOSim s a
mainAction =
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace (SimState Any Any -> Time
forall s a. SimState s a -> Time
curTime SimState Any Any
forall s a. SimState s a
initialState)
(Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
mainThread)
Int
0
(Thread s a -> Maybe ThreadLabel
forall s a. Thread s a -> Maybe ThreadLabel
threadLabel Thread s a
mainThread)
(ScheduleControl -> SimEventType
EventSimStart ScheduleControl
control)
(SimTrace a -> SimTrace a)
-> ST s (SimTrace a) -> ST s (SimTrace a)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Thread s a -> SimState s a -> ST s (SimTrace a)
forall s a. Thread s a -> SimState s a -> ST s (SimTrace a)
schedule Thread s a
mainThread SimState s a
forall s a. SimState s a
initialState { control = control,
control0 = control,
perStepTimeLimit = limit
}
where
mainThread :: Thread s a
mainThread =
Thread {
threadId :: IOSimThreadId
threadId = [Int] -> IOSimThreadId
ThreadId [],
threadControl :: ThreadControl s a
threadControl = SimA s a -> ControlStack s a a -> ThreadControl s a
forall s b a. SimA s b -> ControlStack s b a -> ThreadControl s a
ThreadControl (IOSim s a -> SimA s a
forall s a. IOSim s a -> SimA s a
runIOSim IOSim s a
mainAction) ControlStack s a a
forall s b. ControlStack s b b
MainFrame,
threadStatus :: ThreadStatus
threadStatus = ThreadStatus
ThreadRunning,
threadMasking :: MaskingState
threadMasking = MaskingState
Unmasked,
threadThrowTo :: [(SomeException, Labelled IOSimThreadId, VectorClock)]
threadThrowTo = [],
threadClockId :: ClockId
threadClockId = [Int] -> ClockId
ClockId [],
threadLabel :: Maybe ThreadLabel
threadLabel = ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
"main",
threadNextTId :: Int
threadNextTId = Int
1,
threadStep :: Int
threadStep = Int
0,
threadVClock :: VectorClock
threadVClock = IOSimThreadId -> Int -> VectorClock -> VectorClock
insertVClock ([Int] -> IOSimThreadId
ThreadId []) Int
0 VectorClock
bottomVClock,
threadEffect :: Effect
threadEffect = Effect
forall a. Monoid a => a
mempty,
threadRacy :: Bool
threadRacy = Bool
False
}
execAtomically :: forall s a c.
Time
-> IOSimThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically :: forall s a c.
Time
-> IOSimThreadId
-> Maybe ThreadLabel
-> TVarId
-> StmA s a
-> (StmTxResult s a -> ST s (SimTrace c))
-> ST s (SimTrace c)
execAtomically !Time
time !IOSimThreadId
tid !Maybe ThreadLabel
tlbl !TVarId
nextVid0 !StmA s a
action0 !StmTxResult s a -> ST s (SimTrace c)
k0 =
StmStack s a a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s a
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s a a
forall s b. StmStack s b b
AtomicallyFrame Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty [] [] TVarId
nextVid0 StmA s a
action0
where
go :: forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go :: forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go !StmStack s b a
ctl !Map TVarId (SomeTVar s)
read !Map TVarId (SomeTVar s)
written ![SomeTVar s]
writtenSeq ![SomeTVar s]
createdSeq !TVarId
nextVid !StmA s b
action =
Bool -> ST s (SimTrace c) -> ST s (SimTrace c)
forall a. (?callStack::CallStack) => Bool -> a -> a
assert Bool
localInvariant (ST s (SimTrace c) -> ST s (SimTrace c))
-> ST s (SimTrace c) -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$
case StmA s b
action of
ReturnStm b
x ->
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
![TraceValue]
ds <- (SomeTVar s -> ST s TraceValue)
-> [SomeTVar s] -> ST s [TraceValue]
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> [a] -> f [b]
traverse (\(SomeTVar TVar s a
tvar) -> TVar s a -> Bool -> ST s TraceValue
forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar s a
tvar Bool
True) [SomeTVar s]
createdSeq
![TraceValue]
ds' <- Map TVarId TraceValue -> [TraceValue]
forall k a. Map k a -> [a]
Map.elems (Map TVarId TraceValue -> [TraceValue])
-> ST s (Map TVarId TraceValue) -> ST s [TraceValue]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> (SomeTVar s -> ST s TraceValue)
-> Map TVarId (SomeTVar s) -> ST s (Map TVarId TraceValue)
forall (t :: * -> *) (f :: * -> *) a b.
(Traversable t, Applicative f) =>
(a -> f b) -> t a -> f (t b)
forall (f :: * -> *) a b.
Applicative f =>
(a -> f b) -> Map TVarId a -> f (Map TVarId b)
traverse
(\(SomeTVar TVar s a
tvar) -> do
TraceValue
tr <- TVar s a -> Bool -> ST s TraceValue
forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar s a
tvar Bool
False
!()
_ <- TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar
[a]
undos <- TVar s a -> ST s [a]
forall s a. TVar s a -> ST s [a]
readTVarUndos TVar s a
tvar
Bool -> ST s TraceValue -> ST s TraceValue
forall a. (?callStack::CallStack) => Bool -> a -> a
assert ([a] -> Bool
forall a. [a] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null [a]
undos) (ST s TraceValue -> ST s TraceValue)
-> ST s TraceValue -> ST s TraceValue
forall a b. (a -> b) -> a -> b
$ TraceValue -> ST s TraceValue
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return TraceValue
tr
) Map TVarId (SomeTVar s)
written
StmTxResult s a -> ST s (SimTrace c)
k0 (StmTxResult s a -> ST s (SimTrace c))
-> StmTxResult s a -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$ a
-> [SomeTVar s]
-> [SomeTVar s]
-> [SomeTVar s]
-> [Dynamic]
-> [ThreadLabel]
-> TVarId
-> StmTxResult s a
forall s a.
a
-> [SomeTVar s]
-> [SomeTVar s]
-> [SomeTVar s]
-> [Dynamic]
-> [ThreadLabel]
-> TVarId
-> StmTxResult s a
StmTxCommitted a
b
x ([SomeTVar s] -> [SomeTVar s]
forall a. [a] -> [a]
reverse [SomeTVar s]
writtenSeq)
(Map TVarId (SomeTVar s) -> [SomeTVar s]
forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
read)
([SomeTVar s] -> [SomeTVar s]
forall a. [a] -> [a]
reverse [SomeTVar s]
createdSeq)
((TraceValue -> Maybe Dynamic) -> [TraceValue] -> [Dynamic]
forall a b. (a -> Maybe b) -> [a] -> [b]
mapMaybe (\TraceValue { Maybe tr
traceDynamic :: ()
traceDynamic :: Maybe tr
traceDynamic }
-> tr -> Dynamic
forall a. Typeable a => a -> Dynamic
toDyn (tr -> Dynamic) -> Maybe tr -> Maybe Dynamic
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Maybe tr
traceDynamic)
([TraceValue] -> [Dynamic]) -> [TraceValue] -> [Dynamic]
forall a b. (a -> b) -> a -> b
$ [TraceValue]
ds [TraceValue] -> [TraceValue] -> [TraceValue]
forall a. [a] -> [a] -> [a]
++ [TraceValue]
ds')
((TraceValue -> Maybe ThreadLabel) -> [TraceValue] -> [ThreadLabel]
forall a b. (a -> Maybe b) -> [a] -> [b]
mapMaybe TraceValue -> Maybe ThreadLabel
traceString ([TraceValue] -> [ThreadLabel]) -> [TraceValue] -> [ThreadLabel]
forall a b. (a -> b) -> a -> b
$ [TraceValue]
ds [TraceValue] -> [TraceValue] -> [TraceValue]
forall a. [a] -> [a] -> [a]
++ [TraceValue]
ds')
TVarId
nextVid
BranchFrame BranchStmA s b
_b b -> StmA s b1
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
!()
_ <- (SomeTVar s -> ST s ()) -> Map TVarId (SomeTVar s) -> ST s ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
commitTVar TVar s a
tvar)
(Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a b. Ord k => Map k a -> Map k b -> Map k a
Map.intersection Map TVarId (SomeTVar s)
written Map TVarId (SomeTVar s)
writtenOuter)
let written' :: Map TVarId (SomeTVar s)
written' = Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a. Ord k => Map k a -> Map k a -> Map k a
Map.union Map TVarId (SomeTVar s)
written Map TVarId (SomeTVar s)
writtenOuter
writtenSeq' :: [SomeTVar s]
writtenSeq' = (SomeTVar s -> Bool) -> [SomeTVar s] -> [SomeTVar s]
forall a. (a -> Bool) -> [a] -> [a]
filter (\(SomeTVar TVar s a
tvar) ->
TVar s a -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a
tvar TVarId -> Map TVarId (SomeTVar s) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.notMember` Map TVarId (SomeTVar s)
writtenOuter)
[SomeTVar s]
writtenSeq
[SomeTVar s] -> [SomeTVar s] -> [SomeTVar s]
forall a. [a] -> [a] -> [a]
++ [SomeTVar s]
writtenOuterSeq
createdSeq' :: [SomeTVar s]
createdSeq' = [SomeTVar s]
createdSeq [SomeTVar s] -> [SomeTVar s] -> [SomeTVar s]
forall a. [a] -> [a] -> [a]
++ [SomeTVar s]
createdOuterSeq
StmStack s b1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written' [SomeTVar s]
writtenSeq' [SomeTVar s]
createdSeq' TVarId
nextVid (b -> StmA s b1
k b
x)
ThrowStm SomeException
e -> do
!()
_ <- (SomeTVar s -> ST s ()) -> Map TVarId (SomeTVar s) -> ST s ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
revertTVar TVar s a
tvar) Map TVarId (SomeTVar s)
written
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
StmTxResult s a -> ST s (SimTrace c)
k0 (StmTxResult s a -> ST s (SimTrace c))
-> StmTxResult s a -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$ [SomeTVar s] -> SomeException -> StmTxResult s a
forall s a. [SomeTVar s] -> SomeException -> StmTxResult s a
StmTxAborted (Map TVarId (SomeTVar s) -> [SomeTVar s]
forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
read) (SomeException -> SomeException
forall e. Exception e => e -> SomeException
toException SomeException
e)
BranchFrame (CatchStmA SomeException -> StmA s b
h) b -> StmA s b1
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
let ctl'' :: StmStack s b a
ctl'' = BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
forall s b b1 a.
BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
BranchFrame BranchStmA s b
forall s a. BranchStmA s a
NoOpStmA b -> StmA s b1
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl'
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl'' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty [] [] TVarId
nextVid (SomeException -> StmA s b
h SomeException
e)
BranchFrame (OrElseStmA StmA s b
_r) b -> StmA s b1
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
StmStack s b1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid (SomeException -> StmA s b1
forall s a. SomeException -> StmA s a
ThrowStm SomeException
e)
BranchFrame BranchStmA s b
NoOpStmA b -> StmA s b1
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
StmStack s b1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid (SomeException -> StmA s b1
forall s a. SomeException -> StmA s a
ThrowStm SomeException
e)
CatchStm StmA s a1
a SomeException -> StmA s a1
h a1 -> StmA s b
k -> do
let ctl' :: StmStack s a1 a
ctl' = BranchStmA s a1
-> (a1 -> StmA s b)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b a
-> StmStack s a1 a
forall s b b1 a.
BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
BranchFrame ((SomeException -> StmA s a1) -> BranchStmA s a1
forall s a. (SomeException -> StmA s a) -> BranchStmA s a
CatchStmA SomeException -> StmA s a1
h) a1 -> StmA s b
k Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq StmStack s b a
ctl
StmStack s a1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s a1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s a1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s a1
a
StmA s b
Retry -> do
!()
_ <- (SomeTVar s -> ST s ()) -> Map TVarId (SomeTVar s) -> ST s ()
forall (t :: * -> *) (f :: * -> *) a b.
(Foldable t, Applicative f) =>
(a -> f b) -> t a -> f ()
traverse_ (\(SomeTVar TVar s a
tvar) -> TVar s a -> ST s ()
forall s a. TVar s a -> ST s ()
revertTVar TVar s a
tvar) Map TVarId (SomeTVar s)
written
case StmStack s b a
ctl of
StmStack s b a
AtomicallyFrame -> do
StmTxResult s a -> ST s (SimTrace c)
k0 (StmTxResult s a -> ST s (SimTrace c))
-> StmTxResult s a -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$! [SomeTVar s] -> StmTxResult s a
forall s a. [SomeTVar s] -> StmTxResult s a
StmTxBlocked ([SomeTVar s] -> StmTxResult s a)
-> [SomeTVar s] -> StmTxResult s a
forall a b. (a -> b) -> a -> b
$! Map TVarId (SomeTVar s) -> [SomeTVar s]
forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
read
BranchFrame (OrElseStmA StmA s b
b) b -> StmA s b1
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
let ctl'' :: StmStack s b a
ctl'' = BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
forall s b b1 a.
BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
BranchFrame BranchStmA s b
forall s a. BranchStmA s a
NoOpStmA b -> StmA s b1
k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl'
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl'' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s b
b
BranchFrame BranchStmA s b
_ b -> StmA s b1
_k Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq StmStack s b1 a
ctl' -> do
StmStack s b1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
writtenOuter [SomeTVar s]
writtenOuterSeq [SomeTVar s]
createdOuterSeq TVarId
nextVid StmA s b1
forall s a. StmA s a
Retry
OrElse StmA s a1
a StmA s a1
b a1 -> StmA s b
k -> do
let ctl' :: StmStack s a1 a
ctl' = BranchStmA s a1
-> (a1 -> StmA s b)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b a
-> StmStack s a1 a
forall s b b1 a.
BranchStmA s b
-> (b -> StmA s b1)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> StmStack s b1 a
-> StmStack s b a
BranchFrame (StmA s a1 -> BranchStmA s a1
forall s a. StmA s a -> BranchStmA s a
OrElseStmA StmA s a1
b) a1 -> StmA s b
k Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq StmStack s b a
ctl
StmStack s a1 a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s a1
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s a1 a
ctl' Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty [] [] TVarId
nextVid StmA s a1
a
NewTVar !Maybe ThreadLabel
mbLabel x
x TVar s x -> StmA s b
k -> do
!TVar s x
v <- TVarId -> Maybe ThreadLabel -> x -> ST s (TVar s x)
forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid Maybe ThreadLabel
mbLabel x
x
let written' :: Map TVarId (SomeTVar s)
written' = TVarId
-> SomeTVar s -> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (TVar s x -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s x
v) (TVar s x -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s x
v) Map TVarId (SomeTVar s)
written
!()
_ <- TVar s x -> ST s ()
forall s a. TVar s a -> ST s ()
saveTVar TVar s x
v
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written' [SomeTVar s]
writtenSeq (TVar s x -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s x
v SomeTVar s -> [SomeTVar s] -> [SomeTVar s]
forall a. a -> [a] -> [a]
: [SomeTVar s]
createdSeq) (TVarId -> TVarId
forall a. Enum a => a -> a
succ TVarId
nextVid) (TVar s x -> StmA s b
k TVar s x
v)
LabelTVar !ThreadLabel
label TVar s a1
tvar StmA s b
k -> do
!()
_ <- STRef s (Maybe ThreadLabel) -> Maybe ThreadLabel -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef (TVar s a1 -> STRef s (Maybe ThreadLabel)
forall s a. TVar s a -> STRef s (Maybe ThreadLabel)
tvarLabel TVar s a1
tvar) (Maybe ThreadLabel -> ST s ()) -> Maybe ThreadLabel -> ST s ()
forall a b. (a -> b) -> a -> b
$! (ThreadLabel -> Maybe ThreadLabel
forall a. a -> Maybe a
Just ThreadLabel
label)
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
TraceTVar TVar s a1
tvar Maybe a1 -> a1 -> ST s TraceValue
f StmA s b
k -> do
!()
_ <- STRef s (Maybe (Maybe a1 -> a1 -> ST s TraceValue))
-> Maybe (Maybe a1 -> a1 -> ST s TraceValue) -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef (TVar s a1 -> STRef s (Maybe (Maybe a1 -> a1 -> ST s TraceValue))
forall s a.
TVar s a -> STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace TVar s a1
tvar) ((Maybe a1 -> a1 -> ST s TraceValue)
-> Maybe (Maybe a1 -> a1 -> ST s TraceValue)
forall a. a -> Maybe a
Just Maybe a1 -> a1 -> ST s TraceValue
f)
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
ReadTVar TVar s a1
v a1 -> StmA s b
k
| TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v TVarId -> Map TVarId (SomeTVar s) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
read -> do
a1
x <- TVar s a1 -> ST s a1
forall s a. TVar s a -> ST s a
execReadTVar TVar s a1
v
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a1 -> StmA s b
k a1
x)
| Bool
otherwise -> do
a1
x <- TVar s a1 -> ST s a1
forall s a. TVar s a -> ST s a
execReadTVar TVar s a1
v
let read' :: Map TVarId (SomeTVar s)
read' = TVarId
-> SomeTVar s -> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v) (TVar s a1 -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a1
v) Map TVarId (SomeTVar s)
read
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read' Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a1 -> StmA s b
k a1
x)
WriteTVar TVar s a1
v a1
x StmA s b
k
| TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v TVarId -> Map TVarId (SomeTVar s) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
written -> do
!()
_ <- TVar s a1 -> a1 -> ST s ()
forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a1
v a1
x
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
| Bool
otherwise -> do
!()
_ <- TVar s a1 -> ST s ()
forall s a. TVar s a -> ST s ()
saveTVar TVar s a1
v
!()
_ <- TVar s a1 -> a1 -> ST s ()
forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a1
v a1
x
let written' :: Map TVarId (SomeTVar s)
written' = TVarId
-> SomeTVar s -> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v) (TVar s a1 -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a1
v) Map TVarId (SomeTVar s)
written
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written' (TVar s a1 -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a1
v SomeTVar s -> [SomeTVar s] -> [SomeTVar s]
forall a. a -> [a] -> [a]
: [SomeTVar s]
writtenSeq) [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
SayStm ThreadLabel
msg StmA s b
k -> do
SimTrace c
trace <- StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
SimTrace c -> ST s (SimTrace c)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace c -> ST s (SimTrace c))
-> SimTrace c -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace c
-> SimTrace c
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid (-Int
1) Maybe ThreadLabel
tlbl (ThreadLabel -> SimEventType
EventSay ThreadLabel
msg) SimTrace c
trace
OutputStm Dynamic
x StmA s b
k -> do
SimTrace c
trace <- StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k
SimTrace c -> ST s (SimTrace c)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (SimTrace c -> ST s (SimTrace c))
-> SimTrace c -> ST s (SimTrace c)
forall a b. (a -> b) -> a -> b
$ Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace c
-> SimTrace c
forall a.
Time
-> IOSimThreadId
-> Int
-> Maybe ThreadLabel
-> SimEventType
-> SimTrace a
-> SimTrace a
SimPORTrace Time
time IOSimThreadId
tid (-Int
1) Maybe ThreadLabel
tlbl (Dynamic -> SimEventType
EventLog Dynamic
x) SimTrace c
trace
LiftSTStm ST s a1
st a1 -> StmA s b
k -> do
a1
x <- ST s a1 -> ST s a1
forall s a. ST s a -> ST s a
strictToLazyST ST s a1
st
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid (a1 -> StmA s b
k a1
x)
FixStm x -> STM s x
f x -> StmA s b
k -> do
STRef s x
r <- x -> ST s (STRef s x)
forall a s. a -> ST s (STRef s a)
newSTRef (NonTermination -> x
forall a e. Exception e => e -> a
throw NonTermination
NonTermination)
x
x <- ST s x -> ST s x
forall s a. ST s a -> ST s a
unsafeInterleaveST (ST s x -> ST s x) -> ST s x -> ST s x
forall a b. (a -> b) -> a -> b
$ STRef s x -> ST s x
forall s a. STRef s a -> ST s a
readSTRef STRef s x
r
let k' :: StmA s b
k' = STM s x -> forall r. (x -> StmA s r) -> StmA s r
forall s a. STM s a -> forall r. (a -> StmA s r) -> StmA s r
unSTM (x -> STM s x
f x
x) ((x -> StmA s b) -> StmA s b) -> (x -> StmA s b) -> StmA s b
forall a b. (a -> b) -> a -> b
$ \x
x' ->
ST s () -> (() -> StmA s b) -> StmA s b
forall s a1 a. ST s a1 -> (a1 -> StmA s a) -> StmA s a
LiftSTStm (ST s () -> ST s ()
forall s a. ST s a -> ST s a
lazyToStrictST (STRef s x -> x -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s x
r x
x')) (\() -> x -> StmA s b
k x
x')
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
forall b.
StmStack s b a
-> Map TVarId (SomeTVar s)
-> Map TVarId (SomeTVar s)
-> [SomeTVar s]
-> [SomeTVar s]
-> TVarId
-> StmA s b
-> ST s (SimTrace c)
go StmStack s b a
ctl Map TVarId (SomeTVar s)
read Map TVarId (SomeTVar s)
written [SomeTVar s]
writtenSeq [SomeTVar s]
createdSeq TVarId
nextVid StmA s b
k'
where
localInvariant :: Bool
localInvariant =
Map TVarId (SomeTVar s) -> Set TVarId
forall k a. Map k a -> Set k
Map.keysSet Map TVarId (SomeTVar s)
written
Set TVarId -> Set TVarId -> Bool
forall a. Eq a => a -> a -> Bool
== [TVarId] -> Set TVarId
forall a. Ord a => [a] -> Set a
Set.fromList ([ TVar s a -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a
tvar | SomeTVar TVar s a
tvar <- [SomeTVar s]
writtenSeq ]
[TVarId] -> [TVarId] -> [TVarId]
forall a. [a] -> [a] -> [a]
++ [ TVar s a -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a
tvar | SomeTVar TVar s a
tvar <- [SomeTVar s]
createdSeq ])
execAtomically' :: StmA s () -> ST s [SomeTVar s]
execAtomically' :: forall s. StmA s () -> ST s [SomeTVar s]
execAtomically' = Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
forall k a. Map k a
Map.empty
where
go :: Map TVarId (SomeTVar s)
-> StmA s ()
-> ST s [SomeTVar s]
go :: forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go !Map TVarId (SomeTVar s)
written StmA s ()
action = case StmA s ()
action of
ReturnStm () -> do
[SomeTVar s] -> ST s [SomeTVar s]
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return (Map TVarId (SomeTVar s) -> [SomeTVar s]
forall k a. Map k a -> [a]
Map.elems Map TVarId (SomeTVar s)
written)
ReadTVar TVar s a1
v a1 -> StmA s ()
k -> do
a1
x <- TVar s a1 -> ST s a1
forall s a. TVar s a -> ST s a
execReadTVar TVar s a1
v
Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written (a1 -> StmA s ()
k a1
x)
WriteTVar TVar s a1
v a1
x StmA s ()
k
| TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v TVarId -> Map TVarId (SomeTVar s) -> Bool
forall k a. Ord k => k -> Map k a -> Bool
`Map.member` Map TVarId (SomeTVar s)
written -> do
!()
_ <- TVar s a1 -> a1 -> ST s ()
forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a1
v a1
x
Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written StmA s ()
k
| Bool
otherwise -> do
!()
_ <- TVar s a1 -> ST s ()
forall s a. TVar s a -> ST s ()
saveTVar TVar s a1
v
!()
_ <- TVar s a1 -> a1 -> ST s ()
forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar s a1
v a1
x
let written' :: Map TVarId (SomeTVar s)
written' = TVarId
-> SomeTVar s -> Map TVarId (SomeTVar s) -> Map TVarId (SomeTVar s)
forall k a. Ord k => k -> a -> Map k a -> Map k a
Map.insert (TVar s a1 -> TVarId
forall s a. TVar s a -> TVarId
tvarId TVar s a1
v) (TVar s a1 -> SomeTVar s
forall s a. TVar s a -> SomeTVar s
SomeTVar TVar s a1
v) Map TVarId (SomeTVar s)
written
Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
forall s. Map TVarId (SomeTVar s) -> StmA s () -> ST s [SomeTVar s]
go Map TVarId (SomeTVar s)
written' StmA s ()
k
StmA s ()
_ -> ThreadLabel -> ST s [SomeTVar s]
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"execAtomically': only for special case of reads and writes"
execNewTVar :: TVarId -> Maybe String -> a -> ST s (TVar s a)
execNewTVar :: forall a s. TVarId -> Maybe ThreadLabel -> a -> ST s (TVar s a)
execNewTVar TVarId
nextVid !Maybe ThreadLabel
mbLabel a
x = do
STRef s (Maybe ThreadLabel)
tvarLabel <- Maybe ThreadLabel -> ST s (STRef s (Maybe ThreadLabel))
forall a s. a -> ST s (STRef s a)
newSTRef Maybe ThreadLabel
mbLabel
STRef s a
tvarCurrent <- a -> ST s (STRef s a)
forall a s. a -> ST s (STRef s a)
newSTRef a
x
STRef s [a]
tvarUndo <- [a] -> ST s (STRef s [a])
forall a s. a -> ST s (STRef s a)
newSTRef []
STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked <- ([IOSimThreadId], Set IOSimThreadId)
-> ST s (STRef s ([IOSimThreadId], Set IOSimThreadId))
forall a s. a -> ST s (STRef s a)
newSTRef ([], Set IOSimThreadId
forall a. Set a
Set.empty)
STRef s VectorClock
tvarVClock <- VectorClock -> ST s (STRef s VectorClock)
forall a s. a -> ST s (STRef s a)
newSTRef VectorClock
bottomVClock
STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace <- Maybe (Maybe a -> a -> ST s TraceValue)
-> ST s (STRef s (Maybe (Maybe a -> a -> ST s TraceValue)))
forall a s. a -> ST s (STRef s a)
newSTRef Maybe (Maybe a -> a -> ST s TraceValue)
forall a. Maybe a
Nothing
TVar s a -> ST s (TVar s a)
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return TVar {tvarId :: TVarId
tvarId = TVarId
nextVid, STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel :: STRef s (Maybe ThreadLabel)
tvarLabel,
STRef s a
tvarCurrent :: STRef s a
tvarCurrent :: STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo, STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked, STRef s VectorClock
tvarVClock :: STRef s VectorClock
tvarVClock :: STRef s VectorClock
tvarVClock,
STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace}
execWriteTVar :: TVar s a -> a -> ST s ()
execWriteTVar :: forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar{STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent :: STRef s a
tvarCurrent} = STRef s a -> a -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s a
tvarCurrent
{-# INLINE execWriteTVar #-}
execTryPutTMVar :: TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar :: forall s a. TMVar (IOSim s) a -> a -> ST s Bool
execTryPutTMVar (TMVar TVar (IOSim s) (Maybe a)
var) a
a = do
Maybe a
v <- TVar s (Maybe a) -> ST s (Maybe a)
forall s a. TVar s a -> ST s a
execReadTVar TVar (IOSim s) (Maybe a)
TVar s (Maybe a)
var
case Maybe a
v of
Maybe a
Nothing -> TVar s (Maybe a) -> Maybe a -> ST s ()
forall s a. TVar s a -> a -> ST s ()
execWriteTVar TVar (IOSim s) (Maybe a)
TVar s (Maybe a)
var (a -> Maybe a
forall a. a -> Maybe a
Just a
a)
ST s () -> ST s Bool -> ST s Bool
forall a b. ST s a -> ST s b -> ST s b
forall (m :: * -> *) a b. Monad m => m a -> m b -> m b
>> Bool -> ST s Bool
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return Bool
True
Just a
_ -> Bool -> ST s Bool
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return Bool
False
{-# INLINE execTryPutTMVar #-}
saveTVar :: TVar s a -> ST s ()
saveTVar :: forall s a. TVar s a -> ST s ()
saveTVar TVar{STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent :: STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo} = do
a
v <- STRef s a -> ST s a
forall s a. STRef s a -> ST s a
readSTRef STRef s a
tvarCurrent
![a]
vs <- STRef s [a] -> ST s [a]
forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
STRef s [a] -> [a] -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo ([a] -> ST s ()) -> [a] -> ST s ()
forall a b. (a -> b) -> a -> b
$! a
va -> [a] -> [a]
forall a. a -> [a] -> [a]
:[a]
vs
revertTVar :: TVar s a -> ST s ()
revertTVar :: forall s a. TVar s a -> ST s ()
revertTVar TVar{STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent :: STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo} = do
![a]
vs <- STRef s [a] -> ST s [a]
forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
!()
_ <- STRef s a -> a -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s a
tvarCurrent ([a] -> a
forall a. (?callStack::CallStack) => [a] -> a
head [a]
vs)
STRef s [a] -> [a] -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo ([a] -> ST s ()) -> [a] -> ST s ()
forall a b. (a -> b) -> a -> b
$! [a] -> [a]
forall a. (?callStack::CallStack) => [a] -> [a]
tail [a]
vs
{-# INLINE revertTVar #-}
commitTVar :: TVar s a -> ST s ()
commitTVar :: forall s a. TVar s a -> ST s ()
commitTVar TVar{STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo} = do
![a]
vs <- STRef s [a] -> ST s [a]
forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
STRef s [a] -> [a] -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s [a]
tvarUndo ([a] -> ST s ()) -> [a] -> ST s ()
forall a b. (a -> b) -> a -> b
$! [a] -> [a]
forall a. (?callStack::CallStack) => [a] -> [a]
tail [a]
vs
{-# INLINE commitTVar #-}
readTVarUndos :: TVar s a -> ST s [a]
readTVarUndos :: forall s a. TVar s a -> ST s [a]
readTVarUndos TVar{STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo} = STRef s [a] -> ST s [a]
forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
traceTVarST :: TVar s a
-> Bool
-> ST s TraceValue
traceTVarST :: forall s a. TVar s a -> Bool -> ST s TraceValue
traceTVarST TVar{STRef s a
tvarCurrent :: forall s a. TVar s a -> STRef s a
tvarCurrent :: STRef s a
tvarCurrent, STRef s [a]
tvarUndo :: forall s a. TVar s a -> STRef s [a]
tvarUndo :: STRef s [a]
tvarUndo, STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: forall s a.
TVar s a -> STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace :: STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace} Bool
new = do
Maybe (Maybe a -> a -> ST s TraceValue)
mf <- STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
-> ST s (Maybe (Maybe a -> a -> ST s TraceValue))
forall s a. STRef s a -> ST s a
readSTRef STRef s (Maybe (Maybe a -> a -> ST s TraceValue))
tvarTrace
case Maybe (Maybe a -> a -> ST s TraceValue)
mf of
Maybe (Maybe a -> a -> ST s TraceValue)
Nothing -> TraceValue -> ST s TraceValue
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return TraceValue { traceDynamic :: Maybe ()
traceDynamic = (Maybe ()
forall a. Maybe a
Nothing :: Maybe ()), traceString :: Maybe ThreadLabel
traceString = Maybe ThreadLabel
forall a. Maybe a
Nothing }
Just Maybe a -> a -> ST s TraceValue
f -> do
![a]
vs <- STRef s [a] -> ST s [a]
forall s a. STRef s a -> ST s a
readSTRef STRef s [a]
tvarUndo
a
v <- STRef s a -> ST s a
forall s a. STRef s a -> ST s a
readSTRef STRef s a
tvarCurrent
case (Bool
new, [a]
vs) of
(Bool
True, [a]
_) -> Maybe a -> a -> ST s TraceValue
f Maybe a
forall a. Maybe a
Nothing a
v
(Bool
_, a
_:[a]
_) -> Maybe a -> a -> ST s TraceValue
f (a -> Maybe a
forall a. a -> Maybe a
Just (a -> Maybe a) -> a -> Maybe a
forall a b. (a -> b) -> a -> b
$ [a] -> a
forall a. (?callStack::CallStack) => [a] -> a
last [a]
vs) a
v
(Bool, [a])
_ -> ThreadLabel -> ST s TraceValue
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"traceTVarST: unexpected tvar state"
leastUpperBoundTVarVClocks :: [SomeTVar s] -> ST s VectorClock
leastUpperBoundTVarVClocks :: forall s. [SomeTVar s] -> ST s VectorClock
leastUpperBoundTVarVClocks [SomeTVar s]
tvars =
(VectorClock -> VectorClock -> VectorClock)
-> VectorClock -> [VectorClock] -> VectorClock
forall a b. (a -> b -> b) -> b -> [a] -> b
forall (t :: * -> *) a b.
Foldable t =>
(a -> b -> b) -> b -> t a -> b
foldr VectorClock -> VectorClock -> VectorClock
leastUpperBoundVClock VectorClock
bottomVClock ([VectorClock] -> VectorClock)
-> ST s [VectorClock] -> ST s VectorClock
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$>
[ST s VectorClock] -> ST s [VectorClock]
forall (t :: * -> *) (m :: * -> *) a.
(Traversable t, Monad m) =>
t (m a) -> m (t a)
forall (m :: * -> *) a. Monad m => [m a] -> m [a]
sequence [STRef s VectorClock -> ST s VectorClock
forall s a. STRef s a -> ST s a
readSTRef (TVar s a -> STRef s VectorClock
forall s a. TVar s a -> STRef s VectorClock
tvarVClock TVar s a
r) | SomeTVar TVar s a
r <- [SomeTVar s]
tvars]
readTVarBlockedThreads :: TVar s a -> ST s [IOSimThreadId]
readTVarBlockedThreads :: forall s a. TVar s a -> ST s [IOSimThreadId]
readTVarBlockedThreads TVar{STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: forall s a.
TVar s a -> STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked} = ([IOSimThreadId], Set IOSimThreadId) -> [IOSimThreadId]
forall a b. (a, b) -> a
fst (([IOSimThreadId], Set IOSimThreadId) -> [IOSimThreadId])
-> ST s ([IOSimThreadId], Set IOSimThreadId)
-> ST s [IOSimThreadId]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> STRef s ([IOSimThreadId], Set IOSimThreadId)
-> ST s ([IOSimThreadId], Set IOSimThreadId)
forall s a. STRef s a -> ST s a
readSTRef STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked
blockThreadOnTVar :: IOSimThreadId -> TVar s a -> ST s ()
blockThreadOnTVar :: forall s a. IOSimThreadId -> TVar s a -> ST s ()
blockThreadOnTVar IOSimThreadId
tid TVar{STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: forall s a.
TVar s a -> STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked} = do
([IOSimThreadId]
tids, Set IOSimThreadId
tidsSet) <- STRef s ([IOSimThreadId], Set IOSimThreadId)
-> ST s ([IOSimThreadId], Set IOSimThreadId)
forall s a. STRef s a -> ST s a
readSTRef STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked
Bool -> ST s () -> ST s ()
forall (f :: * -> *). Applicative f => Bool -> f () -> f ()
when (IOSimThreadId
tid IOSimThreadId -> Set IOSimThreadId -> Bool
forall a. Ord a => a -> Set a -> Bool
`Set.notMember` Set IOSimThreadId
tidsSet) (ST s () -> ST s ()) -> ST s () -> ST s ()
forall a b. (a -> b) -> a -> b
$ do
let !tids' :: [IOSimThreadId]
tids' = IOSimThreadId
tid IOSimThreadId -> [IOSimThreadId] -> [IOSimThreadId]
forall a. a -> [a] -> [a]
: [IOSimThreadId]
tids
!tidsSet' :: Set IOSimThreadId
tidsSet' = IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => a -> Set a -> Set a
Set.insert IOSimThreadId
tid Set IOSimThreadId
tidsSet
STRef s ([IOSimThreadId], Set IOSimThreadId)
-> ([IOSimThreadId], Set IOSimThreadId) -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked ([IOSimThreadId]
tids', Set IOSimThreadId
tidsSet')
unblockAllThreadsFromTVar :: TVar s a -> ST s ()
unblockAllThreadsFromTVar :: forall s a. TVar s a -> ST s ()
unblockAllThreadsFromTVar TVar{STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: forall s a.
TVar s a -> STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked :: STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked} = do
STRef s ([IOSimThreadId], Set IOSimThreadId)
-> ([IOSimThreadId], Set IOSimThreadId) -> ST s ()
forall s a. STRef s a -> a -> ST s ()
writeSTRef STRef s ([IOSimThreadId], Set IOSimThreadId)
tvarBlocked ([], Set IOSimThreadId
forall a. Set a
Set.empty)
threadsUnblockedByWrites :: [SomeTVar s]
-> ST s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites :: forall s.
[SomeTVar s]
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
threadsUnblockedByWrites [SomeTVar s]
written = do
[(Labelled TVarId, [IOSimThreadId])]
tidss <- [ST s (Labelled TVarId, [IOSimThreadId])]
-> ST s [(Labelled TVarId, [IOSimThreadId])]
forall (t :: * -> *) (m :: * -> *) a.
(Traversable t, Monad m) =>
t (m a) -> m (t a)
forall (m :: * -> *) a. Monad m => [m a] -> m [a]
sequence
[ (,) (Labelled TVarId
-> [IOSimThreadId] -> (Labelled TVarId, [IOSimThreadId]))
-> ST s (Labelled TVarId)
-> ST s ([IOSimThreadId] -> (Labelled TVarId, [IOSimThreadId]))
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> TVar s a -> ST s (Labelled TVarId)
forall s a. TVar s a -> ST s (Labelled TVarId)
labelledTVarId TVar s a
tvar ST s ([IOSimThreadId] -> (Labelled TVarId, [IOSimThreadId]))
-> ST s [IOSimThreadId] -> ST s (Labelled TVarId, [IOSimThreadId])
forall a b. ST s (a -> b) -> ST s a -> ST s b
forall (f :: * -> *) a b. Applicative f => f (a -> b) -> f a -> f b
<*> TVar s a -> ST s [IOSimThreadId]
forall s a. TVar s a -> ST s [IOSimThreadId]
readTVarBlockedThreads TVar s a
tvar
| SomeTVar TVar s a
tvar <- [SomeTVar s]
written ]
let wakeup :: [IOSimThreadId]
wakeup = [IOSimThreadId] -> [IOSimThreadId]
forall a. Ord a => [a] -> [a]
ordNub [ IOSimThreadId
tid | (Labelled TVarId
_vid, [IOSimThreadId]
tids) <- [(Labelled TVarId, [IOSimThreadId])]
tidss, IOSimThreadId
tid <- [IOSimThreadId] -> [IOSimThreadId]
forall a. [a] -> [a]
reverse [IOSimThreadId]
tids ]
wokeby :: Map IOSimThreadId (Set (Labelled TVarId))
wokeby = (Set (Labelled TVarId)
-> Set (Labelled TVarId) -> Set (Labelled TVarId))
-> [(IOSimThreadId, Set (Labelled TVarId))]
-> Map IOSimThreadId (Set (Labelled TVarId))
forall k a. Ord k => (a -> a -> a) -> [(k, a)] -> Map k a
Map.fromListWith Set (Labelled TVarId)
-> Set (Labelled TVarId) -> Set (Labelled TVarId)
forall a. Ord a => Set a -> Set a -> Set a
Set.union
[ (IOSimThreadId
tid, Labelled TVarId -> Set (Labelled TVarId)
forall a. a -> Set a
Set.singleton Labelled TVarId
vid)
| (Labelled TVarId
vid, [IOSimThreadId]
tids) <- [(Labelled TVarId, [IOSimThreadId])]
tidss
, IOSimThreadId
tid <- [IOSimThreadId]
tids ]
([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
-> ST
s ([IOSimThreadId], Map IOSimThreadId (Set (Labelled TVarId)))
forall a. a -> ST s a
forall (m :: * -> *) a. Monad m => a -> m a
return ([IOSimThreadId]
wakeup, Map IOSimThreadId (Set (Labelled TVarId))
wokeby)
ordNub :: Ord a => [a] -> [a]
ordNub :: forall a. Ord a => [a] -> [a]
ordNub = Set a -> [a] -> [a]
forall {a}. Ord a => Set a -> [a] -> [a]
go Set a
forall a. Set a
Set.empty
where
go :: Set a -> [a] -> [a]
go !Set a
_ [] = []
go !Set a
s (a
x:[a]
xs)
| a
x a -> Set a -> Bool
forall a. Ord a => a -> Set a -> Bool
`Set.member` Set a
s = Set a -> [a] -> [a]
go Set a
s [a]
xs
| Bool
otherwise = a
x a -> [a] -> [a]
forall a. a -> [a] -> [a]
: Set a -> [a] -> [a]
go (a -> Set a -> Set a
forall a. Ord a => a -> Set a -> Set a
Set.insert a
x Set a
s) [a]
xs
racingSteps :: Step
-> Step
-> Bool
racingSteps :: Step -> Step -> Bool
racingSteps Step
s Step
s' =
IOSimThreadId -> Bool
isRacyThreadId (Step -> IOSimThreadId
stepThreadId Step
s)
Bool -> Bool -> Bool
&& Step -> IOSimThreadId
stepThreadId Step
s IOSimThreadId -> IOSimThreadId -> Bool
forall a. Eq a => a -> a -> Bool
/= Step -> IOSimThreadId
stepThreadId Step
s'
Bool -> Bool -> Bool
&& Bool -> Bool
not (Step -> IOSimThreadId
stepThreadId Step
s' IOSimThreadId -> Set IOSimThreadId -> Bool
forall a. Eq a => a -> Set a -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` Effect -> Set IOSimThreadId
effectWakeup (Step -> Effect
stepEffect Step
s))
Bool -> Bool -> Bool
&& ( Step -> Effect
stepEffect Step
s Effect -> Effect -> Bool
`racingEffects` Step -> Effect
stepEffect Step
s'
Bool -> Bool -> Bool
|| Step -> Step -> Bool
throwsTo Step
s Step
s'
Bool -> Bool -> Bool
|| Step -> Step -> Bool
throwsTo Step
s' Step
s
)
where throwsTo :: Step -> Step -> Bool
throwsTo Step
s1 Step
s2 =
Step -> IOSimThreadId
stepThreadId Step
s2 IOSimThreadId -> [IOSimThreadId] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` Effect -> [IOSimThreadId]
effectThrows (Step -> Effect
stepEffect Step
s1)
Bool -> Bool -> Bool
&& Step -> Effect
stepEffect Step
s2 Effect -> Effect -> Bool
forall a. Eq a => a -> a -> Bool
/= Effect
forall a. Monoid a => a
mempty
currentStep :: Thread s a -> Step
currentStep :: forall s a. Thread s a -> Step
currentStep Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
stepThreadId,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
stepStep,
threadEffect :: forall s a. Thread s a -> Effect
threadEffect = Effect
stepEffect,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
stepVClock
} = Step {Int
VectorClock
IOSimThreadId
Effect
stepStep :: Int
stepThreadId :: IOSimThreadId
stepVClock :: VectorClock
stepEffect :: Effect
stepThreadId :: IOSimThreadId
stepStep :: Int
stepEffect :: Effect
stepVClock :: VectorClock
..}
stepThread :: Thread s a -> (Thread s a, Effect)
stepThread :: forall s a. Thread s a -> (Thread s a, Effect)
stepThread thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid,
threadStep :: forall s a. Thread s a -> Int
threadStep = Int
tstep,
threadVClock :: forall s a. Thread s a -> VectorClock
threadVClock = VectorClock
vClock } =
( Thread s a
thread { threadStep = tstep+1,
threadEffect = mempty,
threadVClock = insertVClock tid (tstep+1) vClock
},
Thread s a -> Effect
forall s a. Thread s a -> Effect
threadEffect Thread s a
thread
)
updateRaces :: Thread s a -> SimState s a -> Races
updateRaces :: forall s a. Thread s a -> SimState s a -> Races
updateRaces thread :: Thread s a
thread@Thread { threadId :: forall s a. Thread s a -> IOSimThreadId
threadId = IOSimThreadId
tid }
SimState{ ScheduleControl
control :: forall s a. SimState s a -> ScheduleControl
control :: ScheduleControl
control, Map IOSimThreadId (Thread s a)
threads :: forall s a. SimState s a -> Map IOSimThreadId (Thread s a)
threads :: Map IOSimThreadId (Thread s a)
threads, races :: forall s a. SimState s a -> Races
races = races :: Races
races@Races { [StepInfo]
activeRaces :: Races -> [StepInfo]
activeRaces :: [StepInfo]
activeRaces } } =
let
newStep :: Step
newStep@Step{ stepEffect :: Step -> Effect
stepEffect = Effect
newEffect } = Thread s a -> Step
forall s a. Thread s a -> Step
currentStep Thread s a
thread
concurrent0 :: Set IOSimThreadId
concurrent0 =
Map IOSimThreadId (Thread s a) -> Set IOSimThreadId
forall k a. Map k a -> Set k
Map.keysSet ((Thread s a -> Bool)
-> Map IOSimThreadId (Thread s a) -> Map IOSimThreadId (Thread s a)
forall a k. (a -> Bool) -> Map k a -> Map k a
Map.filter (\Thread s a
t -> Bool -> Bool
not (Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadDone Thread s a
t)
Bool -> Bool -> Bool
&& Thread s a -> IOSimThreadId
forall s a. Thread s a -> IOSimThreadId
threadId Thread s a
t IOSimThreadId -> Set IOSimThreadId -> Bool
forall a. Ord a => a -> Set a -> Bool
`Set.notMember`
Effect -> Set IOSimThreadId
effectForks Effect
newEffect
) Map IOSimThreadId (Thread s a)
threads)
newStepInfo :: Maybe StepInfo
!newStepInfo :: Maybe StepInfo
newStepInfo | IOSimThreadId -> Bool
isNotRacyThreadId IOSimThreadId
tid = Maybe StepInfo
forall a. Maybe a
Nothing
| Set IOSimThreadId -> Bool
forall a. Set a -> Bool
Set.null Set IOSimThreadId
concurrent = Maybe StepInfo
forall a. Maybe a
Nothing
| Bool
isBlocking = Maybe StepInfo
forall a. Maybe a
Nothing
| Bool
otherwise =
StepInfo -> Maybe StepInfo
forall a. a -> Maybe a
Just (StepInfo -> Maybe StepInfo) -> StepInfo -> Maybe StepInfo
forall a b. (a -> b) -> a -> b
$! StepInfo { stepInfoStep :: Step
stepInfoStep = Step
newStep,
stepInfoControl :: ScheduleControl
stepInfoControl = ScheduleControl
control,
stepInfoConcurrent :: Set IOSimThreadId
stepInfoConcurrent = Set IOSimThreadId
concurrent,
stepInfoNonDep :: [Step]
stepInfoNonDep = [],
stepInfoRaces :: [Step]
stepInfoRaces = []
}
where
concurrent :: Set IOSimThreadId
concurrent :: Set IOSimThreadId
concurrent = Set IOSimThreadId
concurrent0 Set IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => Set a -> Set a -> Set a
Set.\\ Effect -> Set IOSimThreadId
effectWakeup Effect
newEffect
isBlocking :: Bool
isBlocking :: Bool
isBlocking = Thread s a -> Bool
forall s a. Thread s a -> Bool
isThreadBlocked Thread s a
thread Bool -> Bool -> Bool
&& Effect -> Bool
onlyReadEffect Effect
newEffect
updateStepInfo :: StepInfo -> StepInfo
updateStepInfo :: StepInfo -> StepInfo
updateStepInfo stepInfo :: StepInfo
stepInfo@StepInfo { stepInfoStep :: StepInfo -> Step
stepInfoStep = Step
step,
stepInfoConcurrent :: StepInfo -> Set IOSimThreadId
stepInfoConcurrent = Set IOSimThreadId
concurrent,
[Step]
stepInfoNonDep :: StepInfo -> [Step]
stepInfoNonDep :: [Step]
stepInfoNonDep,
[Step]
stepInfoRaces :: StepInfo -> [Step]
stepInfoRaces :: [Step]
stepInfoRaces } =
let !lessConcurrent :: Set IOSimThreadId
lessConcurrent = Set IOSimThreadId
concurrent Set IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => Set a -> Set a -> Set a
Set.\\ Effect -> Set IOSimThreadId
effectWakeup Effect
newEffect
happensBefore :: Bool
happensBefore = Step
step Step -> Step -> Bool
`happensBeforeStep` Step
newStep
!stepInfoNonDep' :: [Step]
stepInfoNonDep'
| Bool
happensBefore = [Step]
stepInfoNonDep
| Bool
otherwise = Step
newStep Step -> [Step] -> [Step]
forall a. a -> [a] -> [a]
: [Step]
stepInfoNonDep in
if IOSimThreadId
tid IOSimThreadId -> Set IOSimThreadId -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`notElem` Set IOSimThreadId
concurrent
then let
in StepInfo
stepInfo { stepInfoConcurrent = lessConcurrent
, stepInfoNonDep = stepInfoNonDep'
}
else let theseStepsRace :: Bool
theseStepsRace = Step
step Step -> Step -> Bool
`racingSteps` Step
newStep
afterRacingStep :: Bool
afterRacingStep = (Step -> Bool) -> [Step] -> Bool
forall (t :: * -> *) a. Foldable t => (a -> Bool) -> t a -> Bool
any (Step -> Step -> Bool
`happensBeforeStep` Step
newStep) [Step]
stepInfoRaces
!concurrent' :: Set IOSimThreadId
concurrent'
| Bool
happensBefore = IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => a -> Set a -> Set a
Set.delete IOSimThreadId
tid Set IOSimThreadId
lessConcurrent
| Bool
theseStepsRace = IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => a -> Set a -> Set a
Set.delete IOSimThreadId
tid Set IOSimThreadId
concurrent
| Bool
afterRacingStep = IOSimThreadId -> Set IOSimThreadId -> Set IOSimThreadId
forall a. Ord a => a -> Set a -> Set a
Set.delete IOSimThreadId
tid Set IOSimThreadId
concurrent
| Bool
otherwise = Set IOSimThreadId
concurrent
!stepInfoRaces' :: [Step]
stepInfoRaces'
| Bool
theseStepsRace Bool -> Bool -> Bool
&& ScheduleControl -> Bool
isDefaultSchedule ScheduleControl
control
= Step
newStep Step -> [Step] -> [Step]
forall a. a -> [a] -> [a]
: [Step]
stepInfoRaces
| Bool
otherwise = [Step]
stepInfoRaces
in StepInfo
stepInfo { stepInfoConcurrent = effectForks newEffect
`Set.union` concurrent',
stepInfoNonDep = stepInfoNonDep',
stepInfoRaces = stepInfoRaces'
}
activeRaces' :: [StepInfo]
!activeRaces' :: [StepInfo]
activeRaces' =
case Maybe StepInfo
newStepInfo of
Maybe StepInfo
Nothing -> StepInfo -> StepInfo
updateStepInfo (StepInfo -> StepInfo) -> [StepInfo] -> [StepInfo]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [StepInfo]
activeRaces
Just StepInfo
si -> StepInfo
si StepInfo -> [StepInfo] -> [StepInfo]
forall a. a -> [a] -> [a]
: (StepInfo -> StepInfo
updateStepInfo (StepInfo -> StepInfo) -> [StepInfo] -> [StepInfo]
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> [StepInfo]
activeRaces)
in Races -> Races
normalizeRaces Races
races { activeRaces = activeRaces' }
normalizeRaces :: Races -> Races
normalizeRaces :: Races -> Races
normalizeRaces Races{ [StepInfo]
activeRaces :: Races -> [StepInfo]
activeRaces :: [StepInfo]
activeRaces, [StepInfo]
completeRaces :: [StepInfo]
completeRaces :: Races -> [StepInfo]
completeRaces } =
let !activeRaces' :: [StepInfo]
activeRaces' = (StepInfo -> Bool) -> [StepInfo] -> [StepInfo]
forall a. (a -> Bool) -> [a] -> [a]
filter (Bool -> Bool
not (Bool -> Bool) -> (StepInfo -> Bool) -> StepInfo -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Set IOSimThreadId -> Bool
forall a. Set a -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null (Set IOSimThreadId -> Bool)
-> (StepInfo -> Set IOSimThreadId) -> StepInfo -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. StepInfo -> Set IOSimThreadId
stepInfoConcurrent) [StepInfo]
activeRaces
!completeRaces' :: [StepInfo]
completeRaces' = ( (StepInfo -> Bool) -> [StepInfo] -> [StepInfo]
forall a. (a -> Bool) -> [a] -> [a]
filter (Bool -> Bool
not (Bool -> Bool) -> (StepInfo -> Bool) -> StepInfo -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. [Step] -> Bool
forall a. [a] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null ([Step] -> Bool) -> (StepInfo -> [Step]) -> StepInfo -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. StepInfo -> [Step]
stepInfoRaces)
([StepInfo] -> [StepInfo])
-> ([StepInfo] -> [StepInfo]) -> [StepInfo] -> [StepInfo]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. (StepInfo -> Bool) -> [StepInfo] -> [StepInfo]
forall a. (a -> Bool) -> [a] -> [a]
filter (Set IOSimThreadId -> Bool
forall a. Set a -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null (Set IOSimThreadId -> Bool)
-> (StepInfo -> Set IOSimThreadId) -> StepInfo -> Bool
forall b c a. (b -> c) -> (a -> b) -> a -> c
. StepInfo -> Set IOSimThreadId
stepInfoConcurrent)
([StepInfo] -> [StepInfo]) -> [StepInfo] -> [StepInfo]
forall a b. (a -> b) -> a -> b
$ [StepInfo]
activeRaces
)
[StepInfo] -> [StepInfo] -> [StepInfo]
forall a. [a] -> [a] -> [a]
++ [StepInfo]
completeRaces
in Races{ activeRaces :: [StepInfo]
activeRaces = [StepInfo]
activeRaces', completeRaces :: [StepInfo]
completeRaces = [StepInfo]
completeRaces' }
threadTerminatesRaces :: IOSimThreadId -> Races -> Races
threadTerminatesRaces :: IOSimThreadId -> Races -> Races
threadTerminatesRaces IOSimThreadId
tid races :: Races
races@Races{ [StepInfo]
activeRaces :: Races -> [StepInfo]
activeRaces :: [StepInfo]
activeRaces } =
let activeRaces' :: [StepInfo]
activeRaces' = [ StepInfo
s{stepInfoConcurrent = Set.delete tid stepInfoConcurrent}
| s :: StepInfo
s@StepInfo{ Set IOSimThreadId
stepInfoConcurrent :: StepInfo -> Set IOSimThreadId
stepInfoConcurrent :: Set IOSimThreadId
stepInfoConcurrent } <- [StepInfo]
activeRaces ]
in Races -> Races
normalizeRaces (Races -> Races) -> Races -> Races
forall a b. (a -> b) -> a -> b
$ Races
races{ activeRaces = activeRaces' }
quiescentRaces :: Races -> Races
quiescentRaces :: Races -> Races
quiescentRaces Races{ [StepInfo]
activeRaces :: Races -> [StepInfo]
activeRaces :: [StepInfo]
activeRaces, [StepInfo]
completeRaces :: Races -> [StepInfo]
completeRaces :: [StepInfo]
completeRaces } =
Races{ activeRaces :: [StepInfo]
activeRaces = [],
completeRaces :: [StepInfo]
completeRaces = [ StepInfo
s{stepInfoConcurrent = Set.empty}
| StepInfo
s <- [StepInfo]
activeRaces
, Bool -> Bool
not ([Step] -> Bool
forall a. [a] -> Bool
forall (t :: * -> *) a. Foldable t => t a -> Bool
null (StepInfo -> [Step]
stepInfoRaces StepInfo
s))
] [StepInfo] -> [StepInfo] -> [StepInfo]
forall a. [a] -> [a] -> [a]
++ [StepInfo]
completeRaces }
controlTargets :: StepId -> ScheduleControl -> Bool
controlTargets :: StepId -> ScheduleControl -> Bool
controlTargets StepId
stepId
(ControlAwait (ScheduleMod{ StepId
scheduleModTarget :: StepId
scheduleModTarget :: ScheduleMod -> StepId
scheduleModTarget }:[ScheduleMod]
_)) =
StepId
stepId StepId -> StepId -> Bool
forall a. Eq a => a -> a -> Bool
== StepId
scheduleModTarget
controlTargets StepId
_stepId ScheduleControl
_ = Bool
False
followControl :: ScheduleControl -> ScheduleControl
followControl :: ScheduleControl -> ScheduleControl
followControl (ControlAwait (ScheduleMod { [StepId]
scheduleModInsertion :: [StepId]
scheduleModInsertion :: ScheduleMod -> [StepId]
scheduleModInsertion } : [ScheduleMod]
mods)) =
[StepId] -> [ScheduleMod] -> ScheduleControl
ControlFollow [StepId]
scheduleModInsertion [ScheduleMod]
mods
followControl (ControlAwait []) = ThreadLabel -> ScheduleControl
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"Impossible: followControl (ControlAwait [])"
followControl ControlDefault{} = ThreadLabel -> ScheduleControl
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"Impossible: followControl ControlDefault{}"
followControl ControlFollow{} = ThreadLabel -> ScheduleControl
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"Impossible: followControl ControlFollow{}"
controlFollows :: StepId -> ScheduleControl -> Bool
controlFollows :: StepId -> ScheduleControl -> Bool
controlFollows StepId
_stepId ScheduleControl
ControlDefault = Bool
True
controlFollows StepId
_stepId (ControlFollow [] [ScheduleMod]
_) = Bool
True
controlFollows StepId
stepId (ControlFollow (StepId
stepId':[StepId]
_) [ScheduleMod]
_) = StepId
stepId StepId -> StepId -> Bool
forall a. Eq a => a -> a -> Bool
== StepId
stepId'
controlFollows StepId
stepId (ControlAwait (ScheduleMod
smod:[ScheduleMod]
_)) = StepId
stepId StepId -> StepId -> Bool
forall a. Eq a => a -> a -> Bool
/= ScheduleMod -> StepId
scheduleModTarget ScheduleMod
smod
controlFollows StepId
_ (ControlAwait []) = ThreadLabel -> Bool
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"Impossible: controlFollows _ (ControlAwait [])"
advanceControl :: StepId -> ScheduleControl -> ScheduleControl
advanceControl :: StepId -> ScheduleControl -> ScheduleControl
advanceControl (IOSimThreadId
tid,Int
step) control :: ScheduleControl
control@(ControlFollow ((IOSimThreadId
tid',Int
step'):[StepId]
sids') [ScheduleMod]
tgts)
| IOSimThreadId
tid IOSimThreadId -> IOSimThreadId -> Bool
forall a. Eq a => a -> a -> Bool
/= IOSimThreadId
tid' =
ScheduleControl
control
| Int
step Int -> Int -> Bool
forall a. Eq a => a -> a -> Bool
== Int
step' =
[StepId] -> [ScheduleMod] -> ScheduleControl
ControlFollow [StepId]
sids' [ScheduleMod]
tgts
| Bool
otherwise =
ThreadLabel -> ScheduleControl
forall a. (?callStack::CallStack) => ThreadLabel -> a
error (ThreadLabel -> ScheduleControl) -> ThreadLabel -> ScheduleControl
forall a b. (a -> b) -> a -> b
$ [ThreadLabel] -> ThreadLabel
forall (t :: * -> *) a. Foldable t => t [a] -> [a]
concat
[ ThreadLabel
"advanceControl ", StepId -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show (IOSimThreadId
tid,Int
step)
, ThreadLabel
" cannot follow step ", Int -> ThreadLabel
forall a. Show a => a -> ThreadLabel
show Int
step'
, ThreadLabel
"\n"
]
advanceControl StepId
stepId (ControlFollow [] []) =
ScheduleControl
ControlDefault
advanceControl StepId
stepId (ControlFollow [] [ScheduleMod]
tgts) =
[ScheduleMod] -> ScheduleControl
ControlAwait [ScheduleMod]
tgts
advanceControl StepId
stepId ScheduleControl
control =
Bool -> ScheduleControl -> ScheduleControl
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Bool -> Bool
not (Bool -> Bool) -> Bool -> Bool
forall a b. (a -> b) -> a -> b
$ StepId -> ScheduleControl -> Bool
controlTargets StepId
stepId ScheduleControl
control) (ScheduleControl -> ScheduleControl)
-> ScheduleControl -> ScheduleControl
forall a b. (a -> b) -> a -> b
$
ScheduleControl
control
stepStepId :: Step -> (IOSimThreadId, Int)
stepStepId :: Step -> StepId
stepStepId Step{ stepThreadId :: Step -> IOSimThreadId
stepThreadId = IOSimThreadId
tid, stepStep :: Step -> Int
stepStep = Int
n } = (IOSimThreadId
tid,Int
n)
stepInfoToScheduleMods :: StepInfo -> [ScheduleMod]
stepInfoToScheduleMods :: StepInfo -> [ScheduleMod]
stepInfoToScheduleMods
StepInfo{ stepInfoStep :: StepInfo -> Step
stepInfoStep = Step
step,
stepInfoControl :: StepInfo -> ScheduleControl
stepInfoControl = ScheduleControl
control,
stepInfoNonDep :: StepInfo -> [Step]
stepInfoNonDep = [Step]
nondep,
stepInfoRaces :: StepInfo -> [Step]
stepInfoRaces = [Step]
races
} =
[ ScheduleMod
{ scheduleModTarget :: StepId
scheduleModTarget = Step -> StepId
stepStepId Step
step
, scheduleModControl :: ScheduleControl
scheduleModControl = ScheduleControl
control
, scheduleModInsertion :: [StepId]
scheduleModInsertion = (StepId -> Bool) -> [StepId] -> [StepId]
forall a. (a -> Bool) -> [a] -> [a]
takeWhile (StepId -> StepId -> Bool
forall a. Eq a => a -> a -> Bool
/=Step -> StepId
stepStepId Step
step')
(Step -> StepId
stepStepId (Step -> StepId) -> [Step] -> [StepId]
forall a b. (a -> b) -> [a] -> [b]
`map` [Step] -> [Step]
forall a. [a] -> [a]
reverse [Step]
nondep)
[StepId] -> [StepId] -> [StepId]
forall a. [a] -> [a] -> [a]
++ [Step -> StepId
stepStepId Step
step']
}
| Step
step' <- [Step]
races ]
traceFinalRacesFound :: SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound :: forall s a. SimState s a -> SimTrace a -> SimTrace a
traceFinalRacesFound SimState{ control0 :: forall s a. SimState s a -> ScheduleControl
control0 = ScheduleControl
control, Races
races :: forall s a. SimState s a -> Races
races :: Races
races } =
[ScheduleControl] -> SimTrace a -> SimTrace a
forall a. [ScheduleControl] -> SimTrace a -> SimTrace a
TraceRacesFound [ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl ScheduleControl
control ScheduleMod
m | ScheduleMod
m <- [ScheduleMod]
scheduleMods]
where
scheduleMods :: [ScheduleMod]
scheduleMods :: [ScheduleMod]
scheduleMods =
(StepInfo -> [ScheduleMod]) -> [StepInfo] -> [ScheduleMod]
forall (t :: * -> *) a b. Foldable t => (a -> [b]) -> t a -> [b]
concatMap StepInfo -> [ScheduleMod]
stepInfoToScheduleMods
([StepInfo] -> [ScheduleMod])
-> (Races -> [StepInfo]) -> Races -> [ScheduleMod]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Races -> [StepInfo]
completeRaces
(Races -> [StepInfo]) -> (Races -> Races) -> Races -> [StepInfo]
forall b c a. (b -> c) -> (a -> b) -> a -> c
. Races -> Races
quiescentRaces
(Races -> [ScheduleMod]) -> Races -> [ScheduleMod]
forall a b. (a -> b) -> a -> b
$ Races
races
extendScheduleControl' :: ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl' :: ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl' ScheduleControl
ControlDefault ScheduleMod
m = [ScheduleMod] -> ScheduleControl
ControlAwait [ScheduleMod
m]
extendScheduleControl' (ControlAwait [ScheduleMod]
mods) ScheduleMod
m =
case ScheduleMod -> ScheduleControl
scheduleModControl ScheduleMod
m of
ScheduleControl
ControlDefault -> [ScheduleMod] -> ScheduleControl
ControlAwait ([ScheduleMod]
mods[ScheduleMod] -> [ScheduleMod] -> [ScheduleMod]
forall a. [a] -> [a] -> [a]
++[ScheduleMod
m])
ControlAwait [ScheduleMod]
mods' ->
let common :: Int
common = [ScheduleMod] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [ScheduleMod]
mods Int -> Int -> Int
forall a. Num a => a -> a -> a
- [ScheduleMod] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [ScheduleMod]
mods' in
Bool -> ScheduleControl -> ScheduleControl
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Int
common Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
>= Int
0 Bool -> Bool -> Bool
&& Int -> [ScheduleMod] -> [ScheduleMod]
forall a. Int -> [a] -> [a]
drop Int
common [ScheduleMod]
mods[ScheduleMod] -> [ScheduleMod] -> Bool
forall a. Eq a => a -> a -> Bool
==[ScheduleMod]
mods') (ScheduleControl -> ScheduleControl)
-> ScheduleControl -> ScheduleControl
forall a b. (a -> b) -> a -> b
$
[ScheduleMod] -> ScheduleControl
ControlAwait (Int -> [ScheduleMod] -> [ScheduleMod]
forall a. Int -> [a] -> [a]
take Int
common [ScheduleMod]
mods[ScheduleMod] -> [ScheduleMod] -> [ScheduleMod]
forall a. [a] -> [a] -> [a]
++[ScheduleMod
m{ scheduleModControl = ControlDefault }])
ControlFollow [StepId]
stepIds [ScheduleMod]
mods' ->
let common :: Int
common = [ScheduleMod] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [ScheduleMod]
mods Int -> Int -> Int
forall a. Num a => a -> a -> a
- [ScheduleMod] -> Int
forall a. [a] -> Int
forall (t :: * -> *) a. Foldable t => t a -> Int
length [ScheduleMod]
mods' Int -> Int -> Int
forall a. Num a => a -> a -> a
- Int
1
m' :: ScheduleMod
m' = [ScheduleMod]
mods [ScheduleMod] -> Int -> ScheduleMod
forall a. (?callStack::CallStack) => [a] -> Int -> a
!! Int
common
isUndo :: Bool
isUndo = ScheduleMod -> StepId
scheduleModTarget ScheduleMod
m' StepId -> [StepId] -> Bool
forall a. Eq a => a -> [a] -> Bool
forall (t :: * -> *) a. (Foldable t, Eq a) => a -> t a -> Bool
`elem` ScheduleMod -> [StepId]
scheduleModInsertion ScheduleMod
m
m'' :: ScheduleMod
m'' = ScheduleMod
m'{ scheduleModInsertion =
takeWhile (/=scheduleModTarget m)
(scheduleModInsertion m')
++
scheduleModInsertion m }
in
Bool -> ScheduleControl -> ScheduleControl
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Int
common Int -> Int -> Bool
forall a. Ord a => a -> a -> Bool
>= Int
0) (ScheduleControl -> ScheduleControl)
-> ScheduleControl -> ScheduleControl
forall a b. (a -> b) -> a -> b
$
Bool -> ScheduleControl -> ScheduleControl
forall a. (?callStack::CallStack) => Bool -> a -> a
assert (Int -> [ScheduleMod] -> [ScheduleMod]
forall a. Int -> [a] -> [a]
drop (Int
commonInt -> Int -> Int
forall a. Num a => a -> a -> a
+Int
1) [ScheduleMod]
mods [ScheduleMod] -> [ScheduleMod] -> Bool
forall a. Eq a => a -> a -> Bool
== [ScheduleMod]
mods') (ScheduleControl -> ScheduleControl)
-> ScheduleControl -> ScheduleControl
forall a b. (a -> b) -> a -> b
$
if Bool
isUndo
then [ScheduleMod] -> ScheduleControl
ControlAwait [ScheduleMod]
mods
else [ScheduleMod] -> ScheduleControl
ControlAwait (Int -> [ScheduleMod] -> [ScheduleMod]
forall a. Int -> [a] -> [a]
take Int
common [ScheduleMod]
mods[ScheduleMod] -> [ScheduleMod] -> [ScheduleMod]
forall a. [a] -> [a] -> [a]
++[ScheduleMod
m''])
extendScheduleControl' ControlFollow{} ScheduleMod{} =
ThreadLabel -> ScheduleControl
forall a. (?callStack::CallStack) => ThreadLabel -> a
error ThreadLabel
"Impossible: extendScheduleControl' ControlFollow{} ScheduleMod{}"
extendScheduleControl :: ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl :: ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl ScheduleControl
control ScheduleMod
m =
let control' :: ScheduleControl
control' = ScheduleControl -> ScheduleMod -> ScheduleControl
extendScheduleControl' ScheduleControl
control ScheduleMod
m in
ScheduleControl
control'